2016 SKF Training Handbook

SKF Solutions 2016 SKF Handbook Impact the performance and reliability of your machine life cycle Specification Maintain and Repair Design and Develop Operate and Monitor Manufacture and Test Install and Commission The Power of Knowledge Engineering

SKF Solution Factory Centre By combining our technical competence with our extensive industry experience and local customer demands our state of the art service centre can assist in achieving higher levels of performance and overcoming specific challenges. We call this SKF Knowledge! SKF Handbook 2

Welcome To the world of SKF Knowledge Engineering Recent economic conditions have brought challenging times for maintenance organisations. Companies have turned to downsizing, re-engineering, and a host of other methods to increase profit and remain competitive in the new world market. What do you expect from your Maintenance Workforce? Maintain Predict & Diagnose Prevent Repair and Re-build Trouble-shooting Disassemble Replace/Fix Assemble Most often, equipment failure begins with the neglect of the basics, such as proper lubrication practices, correct mounting methods, and good visual inspections. You need to ensure your technicians have the appropriate technical knowledge, such that the fundamentals are in place and technicians are consistent in how they apply maintenance basics. Proper training will enable technicians not only to do their jobs correctly, but also to work safely themselves and with coworkers so no one has an incident or accident. In addition, they will be able to maintain the equipment competently, with zero rework. Why SKF for reliability maintenance training? Our courses are backed by over 100 years of experience and knowledge of rotating machine reliability. Close working partnerships with our industrial end-users and original equipment manufacturers provide us an intimate understanding of the processes and challenges specific to every major industry, from paper, power and petroleum, to metals, mining and food processing. Our comprehensive training courses cover every aspect of machine reliability, from the shop floor to executive offices. No matter what industry you re in or what machinery you use, SKF can show you how to maintain and manage your assets more productively. The key is to select a competent training provider who can really understand your development needs and offer what you need. We wish you an enjoyable learning experience in 2016! Hashim Poonawala Business Manager Solutions SKF Australasia

SKF Partnership Programs Apprenticeship Program recommended SKF Courses Close working partnership with our clients can facilitate coordinated efforts in providing knowledge share with emerging technologies in the field of engineering and develop apprentice skills within rotating machines that will produce highly trained and qualified trades people. As an extension to your Apprenticeship Program, SKF can design and deliver a series of customised training that will engage and support apprentices to gain invaluable hands-on and real-world experiences. Recommended training courses: Introduction to Bearing Types (including Housings & Seals) Bearing Mounting & Dismounting Methods Lubrication Fundamentals Bearing Damages & Types Belt Alignment & Tensioning Introduction to Condition Based Maintenance Equipment Specific o Electric Motors o Pumps o Fans o Gearboxes o Crushers o Conveyors These courses, targeted towards Apprentices, usually run between half day and full day and include a fair share of hands-on training. The sessions can be customised further to reflect the type of applications used at site. Graduate Engineering Program recommended SKF Courses We understand your success relies on your people and it becomes highly imperative that they receive the correct technical skills and operational experiences to advance their careers. That is why SKF can support your development program and equip your graduates with the right training, using the right tools & technology, and provide the right competency levels. Through our courses, they will understand current trends in maintenance methodologies, and how precision and proactive approaches and their direct interaction with machinery, fit into an overall reliability program. Below is a list of recommended courses, you may wish to include within your Graduate Engineering Programs: Mechanical Maintenance Bearing Technology & Maintenance Root Cause Bearing Damage Analysis Introduction to Lubrication and Contamination Control Precision Shaft Laser Alignment Power Transmission - Application, Assembly and Maintenance Condition Monitoring Vibration Analysis ISO Cat 1 Machinery Lubrication & Oil Analysis ISO Cat 1 Infrared Thermography ISO Cat 1 Maintenance Strategy Maintenance Strategy Review Maintenance Planning & Scheduling Continuous Improvement Root Cause Analysis We deliver our training as a blended learning, incorporating classroom presentations, e-learning, practical workshops, assessment & certifications, group discussions, to improve overall learning effectiveness. To realise potential gains from your Graduate Engineering Program, we highly recommend that the above technical training courses are followed through with ongoing coaching & mentoring as well as implementation of task/equipment specific training and assessments. To learn more about our SKF Partnership Programs, please contact us on 61 3 9269 0763 or via training.australia@skf.com. SKF Handbook 4

Academia & Industry Associations TAFE SA TAFE SA is a leader in high quality education and training services with over 80,000 students a year and more than 1,200 qualifications on scope. An independent statutory corporation of the South Australian Government, TAFE SA is Australia's largest provider of Vocational Education and (VET). The new collaboration between TAFE SA and SKF Reliability Systems will ensure that the delivery and assessment of the MEM18005B unit of the Bearing Technology Course is of a standard second to none in the industry. The quality of this and all future units delivered through this powerful collaboration will provide much improved outcomes for participants and in turn the industry for years to come. Introduction to Solutions E-Learning Short Courses Industry Specific Application Specific Mobius Institute Board of Certification (MIBoC) The Mobius Institute Board of Certification (MIBoC) is an impartial and independent entity that is directed by scheme and technical committees to ensure that its certification meets or exceeds the requirements defined by the applicable International Organization for Standardization, ISO 18436 standards, including Categories I, II, III and IV in Vibration Analysis. MIBoC is an accredited certification body per ISO/IEC 17024 and ISO 18436-1 authorised to provide Vibration Analysis certification in accordance with ISO 18436-1 and 18436-2, meaning students receive the highest certification recognised throughout the world. There are over 50 training organisations around the world that are recognised by MIBoC as delivering training according to ISO 18436-2 and 18436-3, including the Vibration Institute of Australia (VIA), who has partnered with SKF Australia to deliver the training and to invigilate the exams. Living Program International Council for Machinery Lubrication (ICML) The International Council for Machinery Lubrication (ICML) is a vendor-neutral, not-forprofit organisation founded to facilitate growth and development of machine lubrication as a technical field of endeavor. Among its various activities, ICML offers skill certification testing for individuals in the fields of machine condition monitoring, lubrication and oil analysis, which was adopted by ISO as the basis to 18436-4 on certification of field-based analysts and 18436-5 for lab-based analysts. Motor System Reliability Product & Software SKF Reliability Systems have established a partnering agreement with ICML to ensure that the delivery, assessment and quality assurance of SKF's machinery lubrication courses conform to ISO standards and give students the opportunity to receive internationally recognised Machine Lubricant Analyst (MLA) or Machine Lubrication Technician (MLT) Certification. Condition Monitoring Certification Board (CMCB) CMCB with direct support from the Australian Institute for Non Destructive Testing (AINDT) was established to oversee the operation of the condition monitoring certification scheme and the policies and procedures in accordance with international requirements. SKF is pleased to be associated with CMCB & AINDT to facilitate coordinated efforts in providing knowledge share with emerging technologies in condition monitoring. SKF has been approved as an Authorised Body by AINDT in accordance with ISO18436/3. The CM Certification examination, combined with training, experience and verifiable competency requirements, will lead to the successful applicant achieving certification to ISO18436 in the relevant methodology. Such certification will be recognised by leading authorities on condition monitoring throughout the world. SKF Handbook 5

SKF Australia Courses at a glance Introduction to Solutions Page 8 A) E-Learning Courses Page 20 Online Courses Course Code Page 21 Introduction to Asset Efficiency Optimisation MS100 21 Assessment Basics MS101 22 Proactive Reliability Maintenance MS113 22 Operator Driven Reliability MS120 22 Maintenance Strategy Review MS130 22 Introduction to Vibration Analysis WI100 23 Introduction to Thermography WI130 23 Introduction to Lubrication Analysis WI140 23 Spare Parts Management WC130 23 Bearing Basics GRB001 24 Spherical Roller Bearings GRB002 24 Angular Contact Ball Bearings GRB003 24 CARB Toroidal Roller Bearings GRB004 24 Taper Roller Bearings GRB005 25 Deep Groove Ball Bearings GRB006 25 Introduction to Lubrication GRL001 25 Power Transmission GRPT01 25 Bearing Damage Classification WE104 26 Introduction to Shaft Alignment WE140 26 Balancing Basics WE150 26 Introduction to Industrial Seals for Rotating Motion WE170 26 SKF Shaft Alignment Tool PT02-TKSA20 27 SKF Shaft Alignment Tool PT02-TKSA40 27 SKF Machine Condition Advisor PT01-MCA 28 Changes of ISO 199 and ISO 492 PT04-GPS 28 Interactive Computer Based Courses Course Code Page 30 Vibration Analysis I SLT1 30 Vibration Analysis II SLT2 30 Vibration Analysis of Industrial Fans SLT3 31 Vibration Diagnostics of Cement Plant Machinery SLT4 31 Dynamic Balancing I SLT5 31 Basics of Rolling Element Bearings SLT6 32 Mounting of Rolling Element Bearings SLT7 32 Dismounting of Rolling Element Bearings and Failure Analysis SLT8 33 Vibration Analysis of Rolling Element Bearings SLT9 33 Vibration Analysis of Plain Bearings SLT10 34 Vibration Analysis of Electrical Machines SLT11 34 Operation and Maintenance of Pumps SLT12 35 Operation and Troubleshooting of Material Handling Systems SLT13 35 Analysis of Resonance Related Problems SLT14 36 Dynamic Analysis for Equipment and Structural Analysis SLT15 36 Alignment - Theory and Practice SLT16 37 Diagnostics of Sugar Plant Machinery SLT17 37 Diagnostics of Thermal Power Plant Machinery SLT18 38 Diagnostics of Paper Plant Machinery SLT19 38 Oil and Grease Analysis SLT20 39 Diagnostics of Oil Rig Equipment SLT21 39 B) Short Courses Course Code Page 40 Introduction to Bearing Technology N/A 41 Bearing Fitting and Removal Techniques N/A 41 Introduction to Bearing Housings and Seals N/A 41 Bearing Handling and Storage N/A 41 Bearings for Electric Motors N/A 42 Bearing Damage Analysis N/A 42 Bearing Lubrication N/A 42 Practical Handling of High Precision Bearings N/A 42 Introduction to Oil Seals N/A 43 Introduction to Epoxy and Sealant Applications N/A 43 V Belts and Pulleys N/A 43 Infrared Thermography Workshop N/A 43 SKF Handbook 6 C) Industry Specific Courses Course Code Page 44 Improving Bearing Reliability in Mining and Mineral Processing N/A 45 Improving Bearing Reliability in Food and Beverage N/A 46 Improving Bearing Reliability in Power Generation (Thermal) N/A 47 Improving Bearing Reliability in Agregate and Cement WE212 48 Improving Bearing Reliability in Oil and Gas Industries N/A 49 Wind Turbine Shop Bearing Maintenance WE220 50 Wind Turbine Uptower Bearing Maintenance WE221 51

Introduction to Solutions D) Application Specific Courses Course Code Page 52 Bearings in Rotating Machinery Applications WE202 53 Improving Crusher Reliability WI270 54 Improving Bearing Reliability in Conveyors N/A 55 Fundamentals of Pump Technology WE211 56 Improving Bearing Reliability in Industrial Fans WE213 57 Improving Bearing Reliability in Paper Machines WE214 60 Electric Motor Maintenance WE215 58 Machine Tool Reliability WE216 61 E) Courses Course Code Page 62 Maintenance Strategy Review (MSR) awareness MS230 63 Graduate Engineers : Proactive Maintenance Skills N/A 64 Asset Reliability Awareness N/A 66 Condition Based Maintenance WI201 67 Vibration Analysis WI202 68 Machinery Lubrication & Oil Analysis WI240 70 Infrared Thermography WI230 72 Airborne Ultrasound N/A 74 Ultrasonic Testing WI320 75 Maintenance Planning and Scheduling WC200 76 Spare Parts Management and Inventory Control WC230 77 Precision Maintenance Skills WE241 78 Bearing Technology and Maintenance WE201 80 Introduction to Lubrication and Contamination Control WE203 81 Sealing Solutions Technology Seals for Rotary Applications WE270 82 Precision Shaft - Laser Alignment WE240 83 Dynamic Balancing WE250 84 Power Transmission - Application, Assembly and Maintenance WE290 85 Operator Asset Care WE247 86 F) Courses Course Code Page 88 Optimising Asset Management through Maintenance Strategy MS300 89 Streamlined Reliability Centred Maintenance (SRCM) MS331 91 Reliability Centred Maintenance (RCM) MS332 92 Infrared Thermography N/A 93 Vibration Analysis WI203 94 Machinery Lubrication and Oil Analysis WI245 96 Root Cause Bearing Damage Analysis WE204 98 G) Courses Course Code Page 100 Bearing System Design OEM301 101 Vibration Analysis WI204 102 Infrared Thermography 104 Applied Modal and Operating Deflection Shape Analysis WI305 105 H) Living Program Course Code Page 106 Root Cause Analysis (RCA) LP200 107 Life Cycle Costing LP240 108 SiteMentor LP300 109 E-Learning Short Courses Industry Specific Application Specific Living Program Motor System Reliability Product & Software I) Motor Systems Reliability Course Code Page 110 Introduction to Static Testing and Dynamic Motor Monitoring WI261 111 Static Motor Testing/Introduction to DC Motor Testing WI262 112 Dynamic Motor Monitoring/Introduction to DC Motor Monitoring WI263 112 Dynamic Motor Monitoring WI364 113 Dynamic Motor Monitoring, Advanced Diagnostics WI365 113 J) Product & Software Course Code Page 114 Products Bearing Mounting and Dismounting Demonstration Kit MSC-TAFEKIT-1 115 Bearing Workstations MSC-STATIONS 116 Condition Monitoring Kits N/A 117 Balancing Kits N/A 117 Shaft Alignment Kits N/A 118 Electric Motor Diagnostics N/A 119 SmartStart Courses Course Code Page 120 MARLIN /Microlog Inspector and SKF @ptitude Analyst Inspector WICM232 120 AX/GX Series Microlog and SKF @ptitude Analyst WICM264 121 Online Systems and SKF @ptitude WICM270 121 Balancing with an SKF Microlog WECM250 122 Easy-Laser Shaft Alignment Systems WECM245 122 SKF Reliability Cell Program N/A 124 SKF Handbook 7

How can I increase profitability through Skills Management? SKF recommends 5 Key Steps to Successful Results We have the knowledge and tools so let us show you how! Step 1 Step 2 Step 3 Step 4 Step 5 Select Appropriate Work (Understand the maturity levels) Needs Analysis (Identify the competence gap) Blended Learning (Develop customised training plans) Measure Effectiveness (Ensure what is learned transfers to on-the-job behaviours) Work Re-assessment (Continuous improvement and re-enforcement of skills matrix) SKF Handbook 8

Step 1: Select Appropriate Work Introduction to Solutions E-Learning Understand the maturity levels Drawing on years of SKF productivity experience, we can help you identify improvement opportunities that will yield positive bottom-line results, then suggest a strategy for implementing a program to achieve them. Our goal at SKF is to help you achieve maximum return on your reliability investment. The SKF Client Needs Analysis is a performance benchmarking process with proven success in many industries. The SKF Client Needs Analysis enables this understanding, combining our experience in reliabilityfocused maintenance with your knowledge of plant conditions. The goal is to provide useful, actionable information to help you focus on credible performance improvement opportunities. Short Courses Industry Specific Application Specific PROGRAMME CHARACTERISTIC MAINTENANCE MATURITY DRIVER REWARD BEHAVIOUR WORLD CLASS STABILIZING OPTIMIZING Firefighting Maintaining Promoting Innovating Breakdowns Avoid Failures Uptime Growth Competitive Overtime Heroes No Surprises Advantage Efficiency Optimization Disciplined Responding Planning Organized Learning Organization Figure 1: The four phases of maintenance maturity. Moving toward a world-class facility starts with understanding where you stand today, and defining your objectives for the future. Ideally the client needs analysis will give you the opportunity to gain a clearer perspective on your reliability program that is generally not possible while immersed in daily activities. Once the analysis is complete, you will receive a comprehensive report that includes: A summary of initial set-up details A Spider Chart illustrating a micro-level assessment for each question versus the maturity phases A Maturity Summary Matrix showing a macro-level assessment for all four main facets of the Asset Efficiency Optimization Process versus the maturity phases A Ranked Deviation Chart illustrating your performance question-by-question versus your industry averages A detailed roadmap of recommendations for improving plant reliability Living Program Motor System Reliability Product & Software The SKF Client Needs Analysis allows us to identify improvements in specific work categories that can help you achieve optimum results. SKF Handbook 9

Step 2: Needs Analysis Identify the competence gap Needs Analysis (TNA): The shift to a fully integrated, reliability and risk-based asset management strategy starts with a good initial understanding of where your staff are today and where your staff need to be to attain optimum plant performance. The TNA enables this crucial understanding, combining our experience in training and knowledge of maintenance and reliability. The goal is to provide useful and meaningful information to help you focus on improvements for plant performance. TNA is conducted with individuals or a group of your staff from the following work areas: Managers Maintenance Reliability Engineering Superintendents/Supervisors Mechanical Maintenance Electrical Maintenance Planning and Stores Engineers Mechanical Electrical Reliability Condition Monitoring Application Technicians Mechanical Electrical Reliability Condition Monitoring Lubrication Targeting 8 areas of Competency for Improvement Opportunities for improvement are determined when Needs Analysis is analysed. Typical improvements fall in the following areas: 1. Bearing and Seal Technology 2. Power Transmission 3. Lubrication 4. Oil Analysis 5. Vibration Analysis 6. RCA/RCFA 7. Maintenance Strategy 8. Thermography A progressive and structured approach to Assessment Skill Gap Analysis in all key areas of Competency. Starting with the job function analysis to identify key areas for Skill Gap Analysis, the TNA will give you a clearer perspective of personnel's competency and skill level. The results obtained through a well-designed online questionnaire are analysed and a report will be created for you which include: Individual work profile Spider chart showing competency gap in key assessment areas Skill summary matrix Detailed proposal of training recommendation SKF Handbook 10

Step 3: Blended Learning Introduction to Solutions E-Learning Develop customised training plans SKF reliability and maintenance training Short Courses Course levels The SKF courses focus on disseminating maintenance related knowledge worldwide. It offers various programs that are developed for easy application. SKF offer training courses by skill levels. Following this development path is not mandatory, yet highly recommended, as participants will realise the most benefits by taking the courses sequentially. Basic E-learning modules delivered online, 24/7, at SKF Knowledge Centre. Introductory courses familiarise students with basic terms and offer basic training on subjects such as bearings, lubrication, thermography, and more. SKF Self-Learning Tools are a one-stop solution for students at various levels including the students of mechanical and other engineering streams. They offer impartial assessment, and help you to update your competencies to acquire new skills and help you to update your competencies and acquire new skills. Classroom courses taught by SKF specialists at customer locations or SKF facilities nationally. A combination of theory and hands-on instruction, these intermediate courses typically last 2 3 days. Levels 2 and 3 Classroom courses taught by SKF specialists or external experts at customer locations or SKF facilities nationally. Advanced courses dig deeper in theory and principles underlying practical operations and provide adequate opportunities for participants to practice learnings during the course. These courses typically last 3 5 days. Course categories While specific course topics vary widely, SKF training courses are organised to match the following five facets of the SKF Asset Efficiency Optimisation (AEO) workflow process: Maintenance Strategy (MS) Relates to methods and technologies used to develop a maintenance strategy. Courses emphasise a technically and financially sound maintenance strategy developed to match business goals. Work Identification (WI) Relates to methods and technologies used to identify maintenance work. Course topics include condition monitoring, data collection, information integration and analysis/interpretation. Work Control (WC) Relates to methods and technologies used to control maintenance work. Course topics include maintenance planning and scheduling, spare parts alignment and inventory control. Work Execution (WE) Relates to methods and technologies used to complete maintenance tasks. Course topics include precision maintenance, best practices in lubrication, bearing installation, precision alignment, balancing, and post maintenance testing. Living Program (LP) Relates to methods and technologies used to evaluate maintenance work and strategy, thereby closing the loop and making maintenance a continual improvement process. Course topics include root cause analysis, reliability analysis, maintenance work close-out, machine redesign, and technology upgrades. Industry Specific Application Specific Living Program Motor System Reliability Product & Software Course levels Advanced training delivered by SKF specialists Advanced training delivered by SKF specialists Classroom / onsite delivered by local SKF trainers Basic e-learning delivered via the internet Course categories Maintenance strategy Work identification Work control Work execution Living programme (continual improvement) SKF Handbook 11

Step 4: Measure Effectiveness Ensure what is learned transfers to on-the-job behaviours Implementation Support Program. An effective training implementation support will translate the generic knowledge gain and relate it to specific tasks. Ideally task analysis should be performed with the use of maintenance personnel and validated by management. SKF can assist you to build a training implementation support program which could include the following: Development of detailed work packages for critical tasks on critical assets that include step by step work instructions, inspection criteria, specifications, fits, tolerance, spares and special tools required for the task. Identification of specific tooling requirement related to the tasks, assist & support team members in securing the same and facilitate training on the special tools as required. Train team members on task execution based on the developed work packages and the delivered technical training Mentor team members through audits and assessments of task execution to embed and perpetuate best practice in maintenance execution. An effective implementation support program in combination with targeted training delivers the requisite step change to maximise business results and minimise resources employed. SKF Handbook 12

Step 5: Work Re-assessment Continuous improvement and re-enforcement of skills matrix Introduction to Solutions E-Learning Short Courses Industry Specific Application Specific SKF recommends customers to re-assess the improvements made in different work categories after a period of 12-24 months. It also allows customers to identify new improvement opportunities, thereby closing the re-assessment loop and making this part of a continuous improvement process. Key to success Living Program Motor System Reliability Culture Process SUCCESS Technology A corporate culture willing to embrace the need for change Commitment to implementing new technologies with requisite financial, training and personnel resources Willingness to support processes for implementing cultural and technology changes Product & Software SKF Handbook 13

Instructors Clyde Volpe Clyde Volpe qualified as an electrical engineer over 27 years ago and started with Vibration Analysis over 25 years ago and since then practiced in this field in every type of industry known. Clyde has trained a wide range of personnel which includes artisans, technicians, operators analysts, engineers and reliability engineers and consultants. His extensive practical experience in this field enables him to present effectively to basic, intermediate and advanced skilled delegates. Clyde has expanded his training courses to over 30 countries, including Australia in Europe, Asia and Africa. He is known for his motivated method of training and ability to present complex issues in an understandable manner. Ray Voselis Ray Voselis is a senior training consultant and industry specialist in mining. He is a strong advocate of improving bearing reliability practices, by embracing new technology, following correct maintenance procedures, installation techniques and addressing the root cause of the failure mechanism. Ray has a BE in Mechanical Engineering and is primarily teaching the SKF Bearing Technology & Maintenance courses as well as developing and conducting industry specific training courses for engineers, maintenance personnel and students within Australia, for over 20 years. Wayne Dearness Wayne Dearness has more than 40 years of experience in heavy industry and industrial lubrication. He has successfully helped numerous Australian and international companies improve their machinery lubrication and oil analysis programs. Wayne has a Masters of Mechanical Engineering degree, specialising in industrial Tribology. His focus is on practical application of lubrication management within the industry. Wayne has written and conducted numerous public and onsite private training courses, Noria training seminars, as well as authoring and presenting several articles covering a wide range of industry topics. Brenton Ward Brenton Ward is a Level III Infraspection Institute Certified Infrared Thermographer and Level II Certified in Airborne Ultrasound. As a professional infrared consultant specialising in mining, energy and large industrial facilities since 1994, he has provided thermal imaging services, training, and application solutions for a wide range of industries. Brenton teaches Certified Infrared Thermography and Ultrasound classes in Australia and Asia Pacific. SKF Handbook 14

Instructors Introduction to Solutions E-Learning Gary Pilley Gary is an Application Engineer working with SKF in Technical Support and Reliability Services. After completing his Mechanical Engineering in the 1980s, Gary spent over 35 years in varied roles of Application Engineering for many international manufacturing companies producing bearings, gearboxes, couplings, clutches, hydraulic equipment, conveyor belts, chains. As a result, he is now able to draw on years of technical and practical experience to many heavy industry applications. Phil Williams Phil served his time as a fitter and turner in the gold mining industry in Western Australia in the early sixties and continued in maintenance roles in the gold, nickel and copper mining industries until moving to New Zealand in 1974. In New Zealand he continued in the engineering trade in both maintenance and supervisory roles. Phil joined SKF in 1991 and has held numerous roles including Manager, Product Manager, Key Account Manager, Sales Manager. He has now retired but still works for SKF as a trainer. Scott Henderson Scott completed his engineering course at British Army Military College and specialised in rotary wing aircraft. The extensive rotating components and requirement for extreme reliability and precision in the military aviation field, has allowed Scott to transfer these skills to the precision maintenance world at SKF. After leaving the military and emigrating to Australia, Scott was employed with SKF at a national level within Reliability Systems conducting varied projects Australia wide. With over 20 years experience on varied equipment around the world, Scott has a wealth of experience and knowledge to pass on. Short Courses Industry Specific Application Specific Living Program Motor System Reliability Product & Software SKF Handbook 15

Instructors Rob Distill Rob is a lead instructor for the Root Cause Bearing Damage Analysis course and a senior training consultant for a range of SKF Reliability Maintenance courses which he also delivers throughout Australia. He has an extensive background in training, maintenance, root cause analysis and trouble shooting. He regularly performs high skilled high impact services as required at client locations on a nationwide basis. Rob has an Associate Diploma in Mechanical Engineering with a Fitting and Machinist Trade background. Trevor Huf Trevor completed his engineering courses in the Royal Australian Navy and gained extensive knowledge in measurement and alignment since joining SKF in 1989. He has attended formal training with suppliers of laser based measurement systems in shaft alignment and geometrical measurement. As a qualified Cert IV in and Workplace Assessment instructor, Trevor has conducted training for users of laser based measurement systems in all types of industries around Australia and overseas including mining, pulp & paper, oil & gas, marine and consulting companies. He has also presented technical papers at industrial conferences throughout Australia. Now semi retired, Trevor conducts training courses, on behalf of SKF, in Laser Alignment and other areas of condition based maintenance. John Bonnitcha John served 40 years with Terex Jaques as National Parts and Service Manager, where he gained a wealth of experience in the field of Crusher Reliability and Servicing. John is regarded as one of the leaders in the Extractive Industries, where servicing and maintenance of crushing equipment is required to improve the bottom line and ensure equipment availability is improved. John has a wealth of knowledge of all manufacturer s equipment from Jaques Cedarapids, Pegson, Nordberg, Symons, Gemco Sandvik, Allis Chalmers to name a few. John has presented in Crusher Service Seminars throughout Australia, SE Asia and the USA. SKF Handbook 16

Instructors Introduction to Solutions E-Learning Paul Knock Paul has over 20 years experience in the electric motor and rotating plant industry. He has worked as a manager of repair workshops in Europe and Australia and has vast experience in the repair and service of AC and DC electrical motors, pumps & gearboxes. He has field experience in compiling, diagnosing and reporting electrical and mechanical condition monitoring techniques and has managed service contracts in pulp & paper, shipping, food & beverage, steel & metals, mining, wind, nuclear & power generation industries. Paul now manages SKF Machine Health condition monitoring products in Asia Pacific. Short Courses Industry Specific Application Specific Ganesh Natarajan Ganesh is an Asset Management practitioner with over 25 years experience in Maintenance, Engineering, Operations and Consulting domains. He is considered to be a subject matter expert in the field of Asset Management. He has successfully applied and implemented asset management methods, systems, processes and practices in a range of industries including Marine, Oil & Gas, Food & Beverage, Petrochemical, Mining and Metals. His practical and hands-on maintenance experience readily translates to concepts and holistic solutions that deliver results. A proponent of the Asset Management discipline, he is passionate about training and affecting knowledge transfer. Ganesh is well engaged in the public domain through published articles and conference presentations. Keith Sanders Keith Sanders is a qualified Mechanical Engineer graduating from London University in 1963, followed by a number of Industry based training courses in UK. He also completed an MBA from Deakin University in 1996. Keith has more than 40 years experience in the Pump industry covering manufacturing, marketing and export activities. He has held senior management roles both in Australia and the Asia Pacific region, with Kelly & Lewis, Thompsons Byron-Jackson, Ajax Pumps, KSB-Ajax Australia, KSB (Shanghai) and Southern Cross Pumps. He has been President of Pump Industry Australia (PIA) from 2009-11 and continues to act as a Councillor for the Association. Living Program Motor System Reliability Product & Software SKF Handbook 17

Can t spare time out for training? Looking for a convenient solution? Did you know SKF can provide expert training at your premises? Advantages Diverse Range of Courses Access to a full range of public courses as well as courses tailored to meet your industry-specific needs Convenience We arrange timing and delivery of courses to suit your schedule No travel time for delegates, thus providing time and cost savings we come to you! Experienced Presenters Industry experts who are able to provide course participants with the full spectrum of maintenance and reliability based training Cost Effective Cost effective method for training groups of employees from your organisation Team Environment all employees at the same time promotes a team environment and provides immediate learning impact Is Onsite training an option for you? You have 7 or more people from your organisation who need training You want to choose a date and location that suits you You want a trainer that understands your industry You want to save time and money, while getting the best training For more information on what Onsite training can do for you: Tel: (Australia) 61 3 9269 0763 (New Zealand) 0800 705 705 Fax: (Australia) 61 3 9269 0886 (New Zealand) 64 9 273 8513 Email: training.australia@skf.com Visit: www.skf.com.au/training SKF Handbook 18

Australian and New Zealand companies who attended our training courses Introduction to Solutions E-Learning Short Courses MINING & MINERAL PROCESSING ADITYA BIRLA MINERALS ALCOA WORLD ALUMINA ANGLO AMERICAN ANGLOGOLD AUSTRALASIA AURIZON BHP BILLITON IRON ORE AREA C EASTERN RIDGE FINUCANE ISLAND JIMBLEBAR MT WHALEBACK NEWMAN PORT HEDLAND YANDI BHP BILLITON NICKEL WEST KALGOORLIE NICKEL SMELTER KAMBALDA NICKEL CONCENTRATOR KWINANA MT KEITH BHP BILLITON OLYMPIC DAM BOYNE SMELTERS CITIC PACIFIC MINING CMOC - NORTHPARKES MINES EVOLUTION MINING COWAL CRACOW MT CARLTON MT RAWDON FORTESCUE METALS GROUP CHRISTMAS CREEK CLOUDBREAK PORT OPERATIONS GLENCORE CLERMONT COPPER REFINERIES ERNEST HENRY GEORGE FISHER LADY LORETTA MCARTHUR RIVER MINE MINARA RESOURCES MOUNT ISA COPPER MOUNT ISA ZINC OAKY CREEK PORT OPERATIONS TAHMOOR ULAN GOLDFIELDS AGNEW DARLOT ILUKA RESOURCES MMG NEWCREST MINING CADIA TELFER NEWMONT NORTHERN STAR KANOWNA BELLE ORICA MINING SERVICES PORT WARRATAH COAL SERVICES QUEENSLAND ALUMINA RIO TINTO ALCAN WEIPA YARWUN RIO TINTO COAL & ALLIED RIO TINTO IRON ORE BROCKMAN OPERATIONS CAPE LAMBERT MARANDOO PARABURDOO TOM PRICE SOUTH 32 GEMCO CANNINGTON TRITTON COPPER MINES MANUFACTURING BALLANCE - KAPUNI BLUESCOPE STEEL BORAL CEMENT BORAL QUARRIES CARTER HOLT HARVEY CEMENT AUSTRALIA COOGEE CHEMICALS CSBP FUCHS LUBRICANTS GENERAL CABLES GOLDEN BAY CEMENT HANSON HIGGINS AGGREGATES HOLCIM INCITEC PIVOT NZ STEEL ONESTEEL MANUFACTURING QENOS QUEENSLAND NITRATES QUEENSLAND SUGAR SUGAR AUSTRALIA TULLY SUGAR VALMET VISY PAPER WINSTONE AGGREGATES YARA PILBARA FERTILISERS FOOD & BEVERAGE CARGILL - JOE WHITE MALTINGS CBH GROUP FONTERRA CLANDEBOYE EDENDALE KAPUNI LICHFIELD TE RAPA WHAREROA GOODMAN FIELDER GRAINCORP OPERATIONS GRIFFIN FOODS HEINZ WATTIES KIMBERLY CLARK AUSTRALIA MANILDRA GROUP MARS PETCARE MSM MILLING MURRAY GOULBURN CO-OPERATIVE NESTLE AUSTRALIA TEYS AUSTRALIA WARRNAMBOOL CHEESE AND BUTTER WESTLAND DAIRY WESTON MILLING OIL & GAS BP REFINERY - KWINANA CHEVRON CONOCO PHILLIPS EXXON MOBIL REFINING ORIGIN ENERGY - APLNG QUEENSLAND GAS COMPANY SANTOS SANTOS - GLADSTONE LNG (GLNG) VIVA ENERGY WOODSIDE ENERGY ENERGY & UTILITIES AGL MACQUARIE GENERATION LOY YANG ALINTA ENERGY CS ENERGY ENERGY AUSTRALIA GDF SUEZ NRG GLADSTONE POWER STATION STANWELL-TARONG POWER STATION WANNON WATER OEM ALFA LAVAL ATLAS COPCO BAE SYSTEMS AUSTRALIA FL SMIDTH HOWDEN AUSTRALIA JOY GLOBAL METSO MINERALS OUTOTEC SANDVIK MATERIALS HANDLING SCHENCK AUSTRALIA TEREX THYSSENKRUPP MATERIALS HANDLING EDUCATIONAL INSTITUTIONS CHALLENGER INSTITUTE CHISHOLM INSTITUTE CQ UNIVERSITY-ROCKHAMPTON DURACK INSTITUTE PILBARA INSTITUTE TAFE ILLAWARRA OTHER SERVICES ABB SERVICE BIOKEM OIL SERVICES BURGESS BLA CARTERS GENERAL ENGINEERING DALRYMPLE BAY COAL TERMINAL DOWNER ENGINEERING GLADSTONE PORTS CORPORATION GSB LUBRICATION SERVICES HASTINGS DEERING AUSTRALIA INDUSTRIAL MECHANICAL AND MAINTENANCE INLINE ENGINEERING SERVICES MACKAY CONVEYOR EQUIPMENT MFE - CHINCHILLA NATIONAL RELIABILITY SERVICES ORONTIDE SERVICES PILBARA PORTS QUEENSLAND RAIL ROLLS-ROYCE MARINE UNITED GROUP VITERRA WASSCO ENGINEERING Industry Specific Application Specific Living Program Motor System Reliability Product & Software SKF Handbook 19

E-Learning Courses Learn at your own place and pace with SKF e-learning courses. These courses cover a wide range of product and technology topics and complement the courses taught by our specialist training staff. SKF Handbook 20

Online Courses Introduction to Solutions E-Learning Online training course modules from SKF Reliability Systems Short Courses Learn at your own place and pace The E-Learning area of SKF Reliability Systems offers an expanding range of online courses covering a range of topics. This enables selfpaced learning to be enjoyed by the participant at the time and place that best suits their needs. Course Certification On completion of a course, participants have the option of taking a certification test. If the pass mark in the test is achieved then a Certificate - authorised by SKF-Gothenburg will be issued. Learner Support Forum Online training does not have to be a solitary activity, undertaken in isolation from other students. The Knowledge Centre forum includes dedicated discussion areas to support each of the online courses. Here, students are able to communicate freely with other course participants and in an open manner with course tutors. This stimulates learning in a manner similar to the classroom environment, where students benefit not only from the tuition itself, but also from the questions posed by others, and from the responses and debate that these questions generate. To go directly to the forum visit www.skf.com/group/knowledge-centre Tutor Support All of our online courses include ask the expert functionality. Visiting the links provided in the online course will connect the individual learner one-on-one via email with one of our subject matter experts. Students questions submitted in this way are treated in confidence, but the feedback gained is used to guide improvements to the course in question, and to aid development of future courses. Please visit www.skf.com/group/knowledgecentre for a free demonstration of the online training. To subscribe, please contact training.australia@skf.com or phone Tel: (Australia) 61 3 9269 0763 (New Zealand) 0800 705 705 Fax: (Australia) 61 3 9269 0886 (New Zealand) 64 9 273 8513 Recommended For Application Engineer, Condition Monitoring Engineer/Technician, Electrical Engineer/ Manager/Supervisor/Technician/Fitter, Engineering Draftsman/Manager/Supervisor, Mechanical Maintenance Engineer/Manager/ Supervisor/Technician/Fitter/Lubrication Fitter, Operations Manager/Supervisor/Operator, Planning Manager/Planner/Supervisor, Quality Engineer, Reliability Engineer/Manager/ Supervisor, Store Supervisor/Storeman. Introduction to Asset Efficiency Optimisation MS100 This is an introductory course on Maintenance Optimisation. It considers the shortcomings of traditional maintenance and the benefits to be gained by replacing a cost focus with one of value and risk. Tools to assist with the optimisation exercise are briefly discussed and a work process is outlined to ensure that the optimised maintenance plan achieves the desired results. Duration Course Fee 6 month subscription $80 AUD + GST Online Maintenance Strategy Industry Specific pp ic ti n Specific Living Program Motor System Reliability Product & Software SKF Handbook 21

Online Courses Assessment basics MS101 Excellence in asset management is no more or less complex than being able to ask and answer structured questions routinely and accurately. This course provides a general introduction to the subject of assessing maintenance performance. Tuition includes guidance on the selection and implementation of the correct assessment approach. The nature of organisational change is also discussed and suggestions made regarding management of the change process. Duration Course Fee Proactive Reliability Maintenance 6 month subscription $80 AUD + GST Online Maintenance Strategy MS113 A dynamic process for eliminating recurring machine failure! This course starts by exploring what is meant by the term proactive maintenance and goes on to discuss five of the primary tools that are typically used in its implementation. An introduction to the use of key performance indicators to monitor program effectiveness is included, along with suggestions for a disciplined approach to operational review. Duration Course Fee 6 month subscription $80 AUD + GST Online Maintenance Strategy Operator Driven Reliability MS120 This interactive course provides an introduction to the concept of Operator Driven Reliability (ODR). Its origins and terminology are explained, and the relationships between ODR and other maintenance methodologies is discussed. Factors that are key to successful implementation are also described. Duration Course Fee 6 month subscription $80 AUD + GST Online Maintenance Strategy Maintenance Strategy Review MS130 The course starts with an explanation of what a good maintenance strategy is meant to achieve. It then goes on to introduce Reliability Centred Maintenance (RCM) as a means of devising an effective strategy. Some variations on the classic RCM methodology are described, including SRCM and Risk Based maintenance. A cost-based approach to RCM is also outlined. The course goes on to suggest how a maintenance strategy review project might be organised, and concludes by discussing the challenges that must be faced when implementing the results of such a project. Duration Course Fee 6 month subscription $80 AUD + GST Online Maintenance Strategy SKF Handbook 22

Online Courses Introduction to Solutions E-Learning Introduction to Vibration Analysis WI100 This interactive course provides an introduction to vibration monitoring and analysis. It explains many of the basic terms associated with the activity. Vibration measurement parameters and their uses are discussed, including velocity, displacement, acceleration, frequency and phase. An interactive exercise in relative phase measurements is offered. The concept of vibration spectrum analysis is explained, and basic guidance is offered regarding selection of vibration tolerances. Duration Course Fee 6 month subscription $80 AUD + GST Online Work Identification Introduction to Thermography WI130 This interactive course provides an introduction to infrared thermography and the associated background science. It explains many of the basic terms associated with the activity. Four main areas of industrial application are discussed, and practical examples from each of these areas are presented. Duration Course Fee 6 month subscription $80 AUD + GST Online Work Identification Introduction to Lubrication Analysis WI140 The lessons provide an overview into the history of lubricant analysis, evolution of maintenance practices, friction and lubrication basics, lubricant analysis techniques, wear mechanisms, and lubrication regimes. Duration Course Fee 6 month subscription $80 AUD + GST Online Work Identification Spare Parts Management WC130 This course introduces you to the terminology, processes and activities associated with spare part and inventory management. The objective of this course is to increase your knowledge of basic spare parts and inventory management terminology, processes and principles with respect to your business goals. This course will help you to identify, structure and classify spare parts based on their criticality and re-order parameters, and help you to optimise your spare parts inventory. Duration Course Fee 6 month subscription $80 AUD + GST Online Work Control Short Courses Industry Specific pp ic ti n Specific Living Program Motor System Reliability Product & Software SKF Handbook 23

Online Courses Bearing Basics GRB001 On completion of this course the learner will be able to: Describe the three primary functions of a bearing. Correctly identify the component parts of a standard bearing. Explain eight factors that will affect the choice of bearing for a particular application. List the most common bearing types. Describe, with the aid of notes, the main characteristics of each of the common types of bearing. Identify, with the aid of notes, the bearing type described by use of a basic designation. Identify, with the aid of notes, variants of a standard bearing design from information given in prefixes and suffixes applied to standard designations. Duration Course Fee 6 month subscription $80 AUD + GST Online Work Execution Angular Contact Ball Bearings GRB003 Before taking the Angular Contact Ball Bearings course, it is recommended that you have passed the Bearings Basic course (GRB001), or have some prior knowledge about bearings. Lessons focus on features and benefits of single row and double row angular contact ball bearings. Arrangement of universally matchable angular contact ball bearings is also discussed. Four-point contact ball bearings are also considered. SKF Angular Contact Ball Bearings are used in many pump and compressor applications. Three examples of demanding applications are presented. Duration Course Fee 6 month subscription $80 AUD + GST Online Work Execution CARB Toroidal Roller Bearings Spherical Roller Bearings GRB002 This course consists of a number of lessons: Introduction Executive summary Features and benefits Product range and designations Applications Before taking the Spherical Roller Bearings course, it is recommended that you have passed the Bearings Basic course (GRB001), or have some prior knowledge about bearings. Duration Course Fee 6 month subscription $80 AUD + GST Online Work Execution GRB004 In this course you will learn about the features and benefits of CARB Toroidal Roller Bearing performance variants. Additionally, you can go into further details about hardening, adjustment, catalogue values and other technical information by reading the available pdf-documents. CARB Toroidal Roller Bearings are used in many types of applications. This lesson presents no less than five applications of CARB Toroidal Roller Bearings that highlight different aspects of the product benefits. Before taking this course, it is recommended that you have passed the Bearings Basic course (GRB001), or have some prior knowledge about bearings. Duration Course Fee 6 month subscription $80 AUD + GST Online Work Execution SKF Handbook 24

Online Courses Introduction to Solutions E-Learning Taper Roller Bearings GRB005 The course covers the following sections: In this section you will learn about the features and benefits of the three SKF Taper Roller Bearing performance variants. Additionally, you can go into further details about hardening, adjustment, catalogue values and other technical information by reading the available pdf-documents. Product range and designations: This lesson focuses on the SKF Taper Roller Bearing range and the most relevant designations. Applications: Taper Roller Bearings are used in many types of applications. This lesson presents no less than five applications of SKF Taper Roller Bearings that highlight different aspects of the product benefits. Duration Course Fee 6 month subscription $80 AUD + GST Online Work Execution Deep Groove Ball Bearings GRB006 Before taking the Deep Groove Ball Bearings course, it is recommended that you have passed the Bearings Basic course (GRB001), or have some prior knowledge about bearings. In this course you will learn the basics about SKF Deep Groove Ball Bearings. The course consists of the following parts: Product range and designations: Working with bearings on a daily basis, it is useful to recognise the most common bearing designations. In this lesson, you will learn about the SKF Deep Groove Ball Bearing range and the most relevant designations Applications: SKF Deep Groove Ball Bearings are successfully used in a wide range of applications. This lesson illustrates four different applications Introduction to Lubrication GRL001 Before taking the SKF Lubrication course, it is recommended that you have passed the Bearings Basic course (GRB001), or have some prior knowledge about bearings. In this course you will learn about the physics of lubricants and the function of a lubricant within a bearing. The features and benefits of SKF standard bearing greases will be outlined, and you will be shown how to select grease for a specific application. The presentation also discusses the features and benefits of SKF automatic lubricator systems; SYSTEM 24 and SYSTEM Multipoint. Duration Course Fee Power Transmission 6 month subscription $80 AUD + GST Online Work Execution GRPT01 This course presents the basics of the unique SKF power transmission product range, which consists of six main product categories which are belts, pulleys, chains, sprockets, couplings, as well as bushings and hubs. Duration Course Fee 6 month subscription $80 AUD + GST Online Work Execution Short Courses Industry Specific pp ic ti n Specific Living Program Motor System Reliability Product & Software Duration Course Fee 6 month subscription $80 AUD + GST Online Work Execution SKF Handbook 25

Online Courses Bearing Damage Classification WE104 This course looks at bearing damage classification. Understanding the root causes of bearing failures can not only have the effect of providing reliable bearing operation, but also can avoid costly downtime. While most bearings perform extremely well in their particular application, the remaining bearing failures can have expensive consequences. Bearing failure modes are defined according to ISO classification. Armed with this information, it is possible to make sure that a bearing can perform flawlessly in its particular role. The ISO classification helps to improve communication, and avoid misunderstandings. Classifying the damage in the right way helps to understand what has happened, to find the root cause and identify solutions to prevent recurrence of the problem. Duration Course Fee Introduction to Shaft Alignment WE140 This course provides a basic introduction to the subject of shaft alignment. The terminology associated with precision alignment practices is explained, and the benefits to be accrued from their implementation are discussed. The course includes consideration of a variety of methods, including use of straight-edge and feeler gauge, and dial indicators. The use of laser equipment is also discussed. Duration Course Fee 6 month subscription $80 AUD + GST Online Work Execution 6 month subscription $80 AUD + GST Online Work Execution Balancing Basics WE150 This course provides a basic introduction to field balancing from first principles. Unbalance is one of the most common causes of machinery vibration. Nowadays vibration monitoring and analysis instruments typically include a dynamic balancing facility. These balancing programs can usually be relied upon for good results. Occasionally, however, things do not appear to go as they should, and it is useful in such circumstances to have an understanding of the fundamentals of balancing in order to speedily arrive at a solution. Duration Course Fee 6 month subscription $80 AUD + GST Online Work Execution Introduction to Industrial Seals for Rotating Motion WE170 This interactive tutorial aims to provide a basic introduction to the selection of industrial seals for rotating motion. The study material is divided into six chapters: introduction, industrial seals, operating conditions factors, radial shaft seals, v-rings, and applications. Duration Course Fee 6 month subscription $80 AUD + GST Online Work Execution SKF Handbook 26

Online Courses Introduction to Solutions E-Learning SKF Shaft Alignment Tool PT02-TKSA20 This course introduces the SKF shaft alignment tool TKSA20, and covers the following topics The importance of precision alignment What s in the kit Use of the TKSA20 to check for soft foot, and to align a machine. The course is intended for use in conjunction with the manual supplied with the instrument. Tuition is divided into six sections: 1. Introduction to shaft alignment. 2. Introduction to the TKSA20 3. Preparation for shaft alignment 4. Alignment procedure overview 5. Real-world case study 6. Alignment report Duration Course Fee 6 month subscription $80 AUD + GST Online Work Execution SKF Shaft Alignment Tool PT02-TKSA40 This course introduces the SKF shaft alignment tool TKSA40, and covers the following topics. The importance of precision alignment What's in the kit Use of the TKSA40 to check for soft foot, and to align a machine. The course is intended for use in conjunction with the manual supplied with the instrument. Tuition is divided into nine sections: 1. Introduction to shaft alignment. 2. Introduction to the TKSA40 3. Preparation for shaft alignment 4. Measuring the misalignment 5. Correcting the misalignment 6. The soft foot module 7. File manager 8. Troubleshooting 9. Real-world case study Duration Course Fee 6 month subscription $80 AUD + GST Online Work Execution Short Courses Industry Specific pp ic ti n Specific Living Program Motor System Reliability Product & Software SKF Handbook 27

Online Courses SKF Machine Condition Advisor PT01-MCA This course introduces the SKF Machine Condition Advisor, and its application in assessing the condition of rotating machinery. This involves three key tasks: Preparing and planning for measurements Collecting and recording readings Evaluating the collected data to detect changes in machinery condition. Tuition is divided into four main lessons: 1. The basics: This lesson introduces the SKF Machine Condition Advisor as a predictive maintenance tool, and describes the three determinants of machine condition that it measures. 2. Instrument Setup: In this lesson you will learn how to prepare the instrument for use, and how to configure the instrument to suit your own preferences. 3. Using the Instrument: A virtual instrument is used to collect data from a typical fan. A simple data recording system is discussed, and instruction offered regarding the evaluation of the collected data. 4. Practical conditions: This lesson considers some of the practical difficulties that might be encountered in using the Advisor on real process machinery. Once again, a virtual instrument is used to collect data from a typical machine. Duration Course Fee 6 month subscription $80 AUD + GST Online Work Identification Changes of ISO 199 and ISO 492 PT04-GPS ISO 199 and ISO 492 are the basic standards for rolling bearing tolerances. They were revised to incorporate ISO GPS (Geometrical Product Specifications), enabling rolling bearings tolerances and the ISO GPS systems to be based on the same platform. The benefits are better descriptions of SKF products in terms of functions. The revised standards give users more information about the interface between SKF products and the rest of their machinery in order to better integrate our products. Today you need to be an expert in bearings, to understand that for instance, the bearing diameter tolerances are given as a midrange size, but with revised standards this tolerances are clearly described by using the common industrial language of ISO GPS. It functionally takes the interface between the bearing and another mechanical part into account. In detail the rolling bearing standards are now aligned with general ISO GPS standards like ISO 1101 and ISO 5459. ISO 199:2014 Rolling bearings - Thrust bearings - Geometrical product specifications (GPS) and tolerance values ISO 492:2014 Rolling bearings - Radial bearings - Geometrical product specifications (GPS) and tolerance values This e-learning includes information about the content of ISO 199:2014 and ISO 492:2014 and describes the changes to the former version. Duration Course Fee NEW 6 month subscription $80 AUD + GST Online Work Identification SKF Handbook 28

Online Courses - Enrolment form Please complete and fax to (Australia) 61 3 9269 0886 (New Zealand) 64 9 273 8513, or scan and email this form to training.australia@skf.com to submit your order. Tel: (Australia) 61 3 9269 0763 (New Zealand) 0800 705 705 Description Product code Price AUD Qty. Full site AEX101 $1250 Includes unlimited access to all articles, online courses, and interactive services. All training modules (Online Courses) Includes access to all training modules AEX201 $625 Specific E-Learning Course Name (Please write your options below) Price AUD Qty. Introduction to Solutions E-Learning Short Courses Industry Specific pp ic ti n Specific Order Total $ Add GST $ Total Amount Due $ Customer Information Living Program First name Work phone number Company name Last name E-mail Motor System Reliability Street address Suburb Postcode Country Product & Software I give SKF approval to contact me - for further assistance regarding my inquiries on the web. Yes No METHOD OF PAYMENT Cheque: Made payable to SKF Australia Pty Ltd Mailing address - SKF Reliability Systems, PO Box 301, Oakleigh VIC 3166 Company Order No VISA MasterCard AMEX Credit Card No. AMEX Security Code Card Holder s Name Signature Exp Date / SKF Handbook 29

Interactive Computer Based Courses These SKF Self-Learning Tools (SLT) are a onestop interactive solution for students at various levels including students of mechanical and other engineering streams. They eliminate the need to take time off from work and to travel long distances to acquire knowledge, thereby reducing the costs considerably. They offer impartial assessment, and help you to update your competencies to acquire new skills at your will, 24/7. We re now proud to present these courses in the form of an Interactive CD-based or Online Application. These tools are periodically updated to reflect the current technology trends and practices. Module: SLT1 Vibration Analysis Basics of Vibration and Preliminary Analysis Module: SLT2 Vibration Analysis Vibration Analysis and Problem Diagnostics The universal fact is that industrial equipment are subjected to Take a FREE online demonstration of the SKF Self- Learning Tools by visiting http://www.self-learningtool.com/sltdemo/demo. html rigorous operating conditions. Therefore, the possibilities of a break down from various inaccuracies and problems are quite significant. Hence, a predictive maintenance based machinery problem diagnostics is a must in ensuring a trouble-free operation. Though there are many methods of machinery fault diagnostics (condition monitoring for example), one of the most effective methods is Vibration Analysis. SKF Handbook 30 This SLT explains with clarity and simplicity, the theory and precise simulations of the basics of vibration, vibration measuring instruments, the ISO standards followed by the industry, and the methods of doing a simple vibration analysis. List of Topics What is Vibration Characteristics of Vibration What is Condition Monitoring Machine Health Assessment as per ISO standards Basic Diagnostics Analysis Procedures High Points This SLT gives an in-depth overview of All the fundamentals The basic knowledge required for understanding Vibration Analysis It is paramount to understand Level-1 before attempting Level-2, Vibration Analysis and Problem Diagnostics. Add-Ons Practical Tips, Exhaustive Case Studies and Stimulating Exercises Course Fee $1,345 AUD + GST Online Work Identification This SLT demonstrates vibration analysis and problem diagnostics of all the major machinery problems through spectrum and phase characteristics, which are common for all industrial equipments. List of Topics Unbalance Misalignment Mechanical Looseness Bent Shaft Eccentricity Coupling Inaccuracies Bearing Defects Gear Related Problems Defective Belt Driven System Inadequate Rigidity Rubbing Distortion Piping Forces High Points This SLT gives an in-depth overview of common machinery problems Add-Ons Practical Tips, Exhaustive Case Studies and Stimulating Exercises Course Fee $1,345 AUD + GST Online Work Identification

Interactive Computer Based Courses Introduction to Solutions E-Learning Module: SLT3 Vibration Analysis of Industrial Fans This SLT discusses in detail, vibration analysis of industrial fans. List of Topics Classification of Fans Types Various Parts Vibration Analysis of Industrial Fans High Points This SLT gives an in-depth overview of major problems that can occur in process fans using Vibration Diagnostics Add-Ons Practical Tips, Exhaustive Case Studies and Stimulating Exercises Course Fee Module: SLT4 Vibration Diagnostics of Cement Plant Machinery In the cement industry, a high level of diagnostic accuracy is expected from vibration analysis because of the non-availability of stand-by equipments. There is also the need for continuous and trouble-free operation of all critical equipment. This SLT discusses Vibration Analysis of Cement Plant equipment in detail. List of Topics Cement Plant - Division and Sections Wise Equipment Details Vibration Analysis and Problem Diagnostics of Cement Plant Machines High Points This SLT gives an in-depth overview of problem diagnostic procedures with spectrum and phase characteristics using vibration analysis Add-Ons Practical Tips, Exhaustive Case Studies and Stimulating Exercises Course Fee $1,345 AUD + GST Online Work Identification $1,345 AUD + GST Online Work Identification Module: SLT5 Dynamic Balancing Unbalance has been identified as one of the most common causes of machinery vibration. This is present to some degree on all the rotating machines. To achieve dynamic balancing a lot of theoretical as well as practical knowledge is required. Correcting unbalance and effectively applying suitable techniques requires additional knowledge and understanding. This SLT discusses the types of unbalance and methods of balancing in detail. List of Topics What is Unbalance Types of Unbalance Identification of Unbalance In-situ Dynamic Balancing Types of Balancing Balancing Procedure for Single Plane Balancing High Points This SLT gives an in-depth overview of unbalance and in-situ dynamic balancing Add-Ons Practical Tips, Exhaustive Case Studies and Stimulating Exercises Course Fee $1,345 AUD + GST Online Work Execution Short Courses Industry Specific pp ic ti n Specific Living Program Motor System Reliability Product & Software SKF Handbook 31

Interactive Computer Based Courses Module: SLT6 Basics of Rolling Element Bearings This SLT gives an insight into the basics of Rolling Element Bearings and will primarily focus on types of bearings. This knowledge will be a springboard for the user and will help you in understanding the SLT that covers Vibration Analysis of Bearings, Mounting and Dismounting better. It also consists of exercises that will gauge your understanding of the basics of rolling element bearings. List of Topics Bearing Terminology, Bearing General Data, Bearing Types, Selection of Bearing Type, Selection of Bearing Size, Application of Bearings Lubrication Mounting and Dismounting High Points This SLT gives an in-depth overview of: Bearing Design Bearing Selection Application and Lubrication Add-Ons Practical Tips, Exhaustive Case Studies and Stimulating Exercises *The Bearing Technology package comprises 5 SLTs, namely, Bearing Basics, Mounting, Dismounting, Vibration of Rolling Element Bearings and Plain Bearings. Course Fee $1,345 AUD + GST Online Work Execution Module: SLT7 Mounting of Rolling Element Bearings It s staggering to know that around 16% of all premature bearing failures are caused by poor fitting. The common causes are using too much force or simply being unaware of the presence of the correct mounting tools and methods. The methods generally used for the correct and efficient mounting are Mechanical, Heat or Hydraulic application methods. This SLT gives information about professional fitting with the usage of specialised tools and techniques, which in turn will help in achieving maximum machine uptime. List of Topics Preparation for Mounting Cold Mounting Hot Mounting SKF Drive-up Method and Mounting Tools High Points This SLT gives an in-depth overview of: Methods of mounting using the correct tools Ways to increase the life of the bearing with minimal wear and tear Add-Ons Practical Tips, Exhaustive Case Studies and Stimulating Exercises Course Fee $1,345 AUD + GST Online Work Execution SKF Handbook 32

Interactive Computer Based Courses Introduction to Solutions E-Learning Module: SLT8 Dismounting of Rolling Element Bearings and Failure Analysis When shafts and bearings are damaged during the dismounting of bearings, there is always a cost associated with it, in terms of both time and material. In addition, the use of the wrong tools and techniques for dismounting can be hazardous to the operator. This SLT basically gives information about how dismounting of bearings can cause damage to both the bearings and associated components. This demonstrates how to avoid using incorrect tools and techniques. List of Topics Basic Principles Cold Dismounting Hot Dismounting Dismounting Tools Bearing Damages and Failures High Points This SLT gives an in-depth overview of: Methods of dismounting bearings using the correct tools Ways to increase the life of the bearing with minimal wear and tear Add-Ons Practical Tips, Exhaustive Case Studies and Stimulating Exercises Course Fee $1,345 AUD + GST Online Work Execution Module: SLT9 Vibration Analysis of Rolling Element Bearings Condition monitoring of Rolling Element Bearings using Vibration Analysis can prevent a majority of problems and failures. This SLT is designed to teach you more about the Basics of Rolling Element Bearings. It covers vibration theory and bearing vibration in detail. List of Topics Basics of Vibration Bearing Vibration, Variable Compliance Vibration Geometrical, perfections and SEE (Spectral Emitted Energy) Random Ultrasonic frequencies, Natural Frequencies of Bearing Components Spike Energy Measurements, Rotational Defect frequencies Bearing damages and failure High Points This SLT gives an in-depth overview of: Vibration Analysis of Rolling Element Bearings to diagnose problems in bearings during operation Methods of reducing the stoppage of machinery Methods of increasing the life of machine/ bearing Add-Ons Practical Tips, Exhaustive Case Studies and Stimulating Exercises Course Fee $1,345 AUD + GST Online Work Identification Short Courses Industry Specific pp ic ti n Specific Living Program Motor System Reliability Product & Software SKF Handbook 33

Interactive Computer Based Courses Module: SLT10 Vibration Analysis of Plain Bearings Plain Bearings are the predominant choice for bearings used to position the rotors of high power turbo machinery, ship propulsion machinery and other equipment where reliability as well as life is very important. This SLT includes vibration analysis and diagnostic studies with common vibration problems that can occur in plain bearings. A case study on a turbine generator set is discussed in this SLT. It also gives information about the selection, operation and performance characteristics of Plain Bearings. List of Topics Journal Bearings (Hydrodynamic Bearing Pressure, Eccentricity, Rotor Instability), and Classifications of Journal Bearings Vibration In Bearings Common Bearing Problems High Points This SLT gives an in-depth overview of: Vibration Analysis of Plain Bearings to diagnose problems in bearings during operation Methods of reducing the stoppage of machinery Methods of increasing the life of machine/ bearing Add-Ons Practical Tips, Exhaustive Case Studies and Stimulating Exercises Course Fee $1,345 AUD + GST Online Work Identification Module: SLT11 Vibration Analysis of Electrical Machines Vibration Analysis is one of the best methods to diagnose all types of defects and inaccuracies in electrical machines. Electrical machines will be subjected to all inaccuracies like any mechanical equipment. In addition, these machines shall be subjected to all types of electrical inaccuracies as well. Therefore, Vibration Analysis of Electrical Machines are more complex than mechanical equipment. The method of using Vibration Analysis to identify mechanical defects is separately covered in our earlier SLTs and the same methodology shall be equally applicable on electrical machines such as motors, generators. This SLT covers the Vibration Analysis and Diagnostic Studies of Electrical Machines such as motors, generators. List of Topics General Construction of Electrical Machines Vibration Analysis of Electrical Machines Line Frequency Vibration and Slot Frequency Vibration Stator and Rotor Defects Non-Uniform Air Gap and Motor Magnetic Field High Points This SLT gives an in-depth overview of methods of using Vibration Analysis of electrical machines to diagnose problems causing various Stator and Rotor Defects, Non Uniform Air Gap etc. Add-Ons Practical Tips, Exhaustive Case Studies and Stimulating Exercises Course Fee $1,345 AUD + GST Online Work Identification SKF Handbook 34

Interactive Computer Based Courses Introduction to Solutions E-Learning Module: SLT12 Operation and Maintenance of Pumps Pumps are one of the most important machines in any industry. They are used to move fluids in an efficient way from the source to any required destination. Understanding the operation and maintenance of pumps is very important. In this SLT we cover in detail the various types, characteristics, operation and maintenance aspects like Preventive, Predictive and regular maintenance. List of Topics Operation of various types of pumps Operating characteristics of pumps Efficient operation and maintenance procedures of pumps Diagnose the problem through vibration analysis High points Maintenance scheduling and trouble shooting are the high points of this SLT. Add-ons Practical tips, Case Studies and Exercises are the highlights of this SLT. Course Fee $1,345 AUD + GST Online Work Execution Maintenance Strategy Module: SLT13 Operation and Trouble shooting of Material Handling Systems Material Handing Systems is very important to any industry. Understanding the equipment and its maintenance is the responsibility of every maintenance engineer. This SLT will give you an insight into Material Handling equipment, operation and trouble shooting of Belt Conveyors, Bucket Elevators, Deep Bucket Elevators, Drag Chain Conveyors and Screw Conveyors. List of Topics Types, specifications, advantages, functions, components, trouble shooting, causes and defects of material handling systems like: Belt Conveyors Bucket Elevators Deep Bucket Elevators Drag Conveyors Screw Conveyors High points Components of Material Handing System with Operation and trouble shooting are the high points of this SLT. Add-ons Practical tips and Exercises are the highlights of this SLT. Course Fee $1,345 AUD + GST Online Work Identification Work Execution Short Courses Industry Specific pp ic ti n Specific Living Program Motor System Reliability Product & Software SKF Handbook 35

Interactive Computer Based Courses Module: SLT14 Analysis of Resonance Related Problems Down time of equipments due to resonance in a plant is very common phenomena. Solving the same after understanding the same is very important. The vibration can be greatly amplified if a forcing function, such as unbalance, misalignment or a blade pass frequency happens to be within the range of a natural frequency. When such forcing frequencies coincide with or nearer to a natural frequency this phenomenon is known as Resonance. List of Topics Vibratory Motions Critical Speed Problems Resonance Related Problems Bode Plot Natural Frequency Testing Mode Shapes Polar Plots Correction methods High points Practical case studies for solving resonance are the high point of this SLT. Add-ons Practical tips and Exercises are the highlights of this SLT. Course Fee $1,345 AUD + GST Online Work Identification Module: SLT15 Dynamic Analysis for Equipment and Structural Analysis High vibrations in plant equipment due to resonance are solved by using dynamic analysis. Finite Element Analysis (FEA) is the scientific method used for such analysis. FEA is used for many other solutions including the design optimisation. Understanding the Dynamic Analysis using various methods of FEA and modelling are very important to solve equipment problems. List of Topics Basics of Dynamic Analysis Types of Analysis Planning a Dynamic Analysis Steps Involved in Dynamic Analysis Industrial Systems Case Studies Practical Tips Exercise High points Step by step procedure to dynamic analysis is the high point of this SLT. Add-ons Practical tips, Do s and Don ts and Exercises are the highlights of this SLT. Course Fee $1,345 AUD + GST Online Work Identification SKF Handbook 36

Interactive Computer Based Courses Introduction to Solutions E-Learning Module: SLT16 Alignment Theory and Practice Misalignment is responsible for up to 50% of breakdowns in rotating machinery. Those breakdowns cause increased machine downtime that translates directly into higher costs. Implementing the latest alignment methods like laser alignment discussed in this SLT can improve the reliability of the equipments. In this SLT, we have covered the various types of misalignments, causes and harmful effects of misalignment and diagnostics of misalignment. We have also covered in detail about alignment methods like dial indicator method and laser alignment. List of Topics Types of misalignment Causes and harmful effects of misalignment Pre-alignment check and diagnostics of misalignment Alignment methods and procedures High points This SLT gives a never before in-depth overview of diagnostics of misalignment using dial indicator and laser alignment methods. Add-ons Practical tips and Exercises are the highlights of this SLT. Course Fee $1,345 AUD + GST Online Work Identification Module: SLT17 Diagnostics of Sugar Plant Machinery In the sugar industry, a high level of diagnostic accuracy is expected from vibration analysis because of the non-availability of standby equipments. There is also the need for continuous and trouble-free operation of all the critical equipments. In this SLT, we are covering the major machinery problems common for all Sugar Plant equipment and also the spectrum and phase characteristics of each problem and how to detect them using vibration analysis. List of Topics Sugar Plant - main process and equipment details Vibration characteristics Vibration analysis and problem diagnostics of sugar plant machineries High points This SLT gives an in-depth overview of problem diagnostic procedures with spectrum and phase characteristics using vibration analysis. Add-ons Practical tips, case studies and exercises are the highlights of this SLT. Course Fee $1,345 AUD + GST Online Work Identification Short Courses Industry Specific pp ic ti n Specific Living Program Motor System Reliability Product & Software SKF Handbook 37

Interactive Computer Based Courses Module: SLT18 Diagnostics of Thermal Power Plant Machinery In a thermal power plant, the chemical energy stored in fossil fuels such as coal, fuel oil, natural gas is converted successively into thermal energy, mechanical energy and finally electrical energy for continuous use and distribution across a wide geographic area. Thermal Power plants should have very high availability and to achieve this a proper maintenance plan should be followed. In this SLT, we are covering the brief introduction about operations, equipment, sections and diagnostics of thermal power plant. It also deals in detail about the vibration analysis of critical equipment in thermal power plant. List of Topics Main section and equipment Vibration characteristics and fault diagnostics Vibration analysis of critical equipment Vibration diagnostics chart High points This SLT gives a never before in-depth overview of: Problem diagnostics procedures with spectrum and phase characteristics using vibration analysis. Course Fee $1,345 AUD + GST Online Work Identification Module: SLT19 Diagnostics of Paper Plant Machinery Paper machines are high pieces of equipments sometimes much more than 100 metres in length equipped with a large number of rolls. Keeping track of vibration levels of the rolls and felts makes sure that problems are detected early and appropriate actions can be planned. In this SLT, we are covering the major machinery problems common for all the paper plant equipments and also covering the spectrum and phase characteristics of each problem and how to detect them using vibration analysis. List of Topics Main section and equipment Lubrication Vibration characteristics and fault diagnostics Vibration analysis of critical equipment Bearing failure modes and online system High points This SLT gives a never before in-depth overview of: Problem diagnostics procedures with spectrum and phase characteristics using vibration analysis. Course Fee $1,345 AUD + GST Public Work Identification SKF Handbook 38

Interactive Computer Based Courses Module: SLT20 Oil & Grease Analysis NEW Monitoring oil/grease condition is very important. By being proactive, actions can be taken before improper lubrication contributes to the deterioration of machinery condition, such as increase in bearing temperature and/or vibration level. In this SLT, we have covered the mechanism of lubricant contamination and its effect on machine operation. Oil/grease testing and analysis methods are explained in details, and practical example are given to help better understand and grasp best practice in sampling. Real application cases are used to show grease test results and the reporting of grease condition. List of Topics Wear & its types Oil condition & contamination Oil analysis test and methods Sampling procedure Grease analysis SKF oil check & SKF Grease test Dos and Don ts Practical Tips Exercises Course Fee $1,345 AUD + GST Online Work Identification Module: SLT21 Diagnostics of Oil Rig Equipment Rig equipment is one of the critical functional units in oil production. Its failure will cause immediate disruption to production and incur great losses. By monitoring the condition of critical equipment and identifying potential failures through effective diagnosis, production downtime can be significantly reduced. In this SLT, we have covered different types of drilling rig and the identification of critical equipment in rig system. The vibration characteristics of these equipment are explained and analyzed in details. Practical case studies are used to help better understand how to make diagnosis of potential failures based on vibration analysis. List of Topics NEW Drilling rig classification Critical equipments Vibration characteristics Vibration analysis & problem diagnostics of oil rig equipments Case Studies Exercises Course Fee $1,345 AUD + GST Online Work Identification Introduction to Solutions E-Learning Short Courses Industry Specific pp ic ti n Specific Living Program Motor System Reliability Product & Software SKF Handbook 39

Short Courses These courses are a great way to learn and refresh your skills & knowledge with basic maintenance best practices. The courses are custom made to your requirement and generally delivered at your facility. SKF Handbook 40

Short Courses Introduction to Solutions E-Learning Introduction to Bearing Technology Participants will learn to install and maintain rolling element bearings in rotating machinery. Course Outline Bearing Applications Principles of Mounting & Dismounting Fits and Tolerances Bearing Storage & Handling Bearing Damage Practical session - hands on bearing fitting & removal Who Should Attend Tradesmen, Fitters, Maintenance and Mechanical / Electrical Apprentices Course Fee No. of Attendees 1 Day $6,300 AUD + GST Onsite 15 Max Work Execution Bearing Fitting and Removal Techniques Course Outline Shaft and bearing housing fits and tolerances Mounting Methods Clearance Reduction Mounting Methods - Axial Drive-up Dismounting Methods Hydraulic Nut Withdrawal Sleeve Dismounting Methods Oil Injection Bearing Damages Practical hands on fitting Who Should Attend Any personnel involved with designing and fitting the above bearings (i.e. Design Engineers, Tradesmen, Fitters, Maintenance and Mechanical Apprentices) This course covers the common bearings used in conveyors and fans. Typically these bearings rarely achieve their design life due to incorrect fitting practices. Duration Course Fee No. of Attendees 1/2 Day $3,600 AUD + GST Onsite 15 Max Work Execution Introduction to Bearing Housings and Seals Course Outline Bearing Housing Design Seal Types and Applications How a Bearing Housing can affect Bearing Life Identification Quality Standardisation and Rationalisation Who Should Attend Any personnel involved with selecting, requesting, identifying and issuing housings (i.e. Engineers, Draftsmen, Purchasing, Stores, Tradesmen, Fitters, Maintenance and Mechanical / Electrical Apprentices) This course covers the application and fitting of Plummer Block housings. Typical applications for these housings include conveyors and fans. Course Fee No. of Attendees 1/2 Day $3,600 AUD + GST Onsite 15 Max Work Execution Bearing Handling and Storage Course Outline Identify bearings from samples Bearing part numbers Bearing types Where to store bearings How to handle bearings Where to find relevant information Who Should Attend Any personnel involved with selecting, requesting, identifying and issuing bearings (i.e. Purchasing, Stores, Tradesmen, Fitters, Maintenance and Mechanical / Electrical Apprentices) 1/2 Day Course Fee $3,600 AUD + GST Onsite No. of Attendees 15 Max Work Execution Short Courses Industry Specific pp ic ti n Specific Living Program Motor System Reliability Product & Software SKF Handbook 41

Short Courses SKF Handbook 42 Bearings for Electric Motors Course Outline Bearing Basics Electric Motor Bearings Motor Dismantling and Bearing Dismounting Shaft and Housing Fits Motor Assembly and Bearing Mounting Lubrication Post Motor Service Procedures Who Should Attend Tradesmen, Fitters, Maintenance and Mechanical / Electrical Apprentices This course covers fitting techniques for Deep Groove Ball Bearings and Cylindrical Roller Bearings. These bearings are commonly used in electric motors. Course Fee No. of Attendees 1/2 Day $3,600 AUD + GST Onsite 15 Max Work Execution Bearing Damage Analysis Course Outline Why Do Bearings get Damaged? Load Path Patterns in Bearings Bearing Damage Analysis Methodology ISO Bearing Damage Classifications and Terminology Hands-on Analysis of Damaged Bearings (samples) Who Should Attend Personnel involved with Reliability and Maintenance, Reliability Engineers, Condition Monitoring, Fitters and Apprentices. Key Learning Outcomes At the end of this course, students will be able to: Recognise load patterns in bearings Perform bearing damage analysis Understand ISO terminology and classification of failure modes Understand terminology and visual appearance of damage modes 1 Day Course Fee $6,300 AUD + GST Onsite No. of Attendees 15 Max Work Execution Bearing Lubrication Course Outline Grease Lubrication Base Oil Viscosity Oils and Greases Temperature Range Grease Consistency, Thickeners and Compatibility Relubrication Quantity and Frequency Oil Lubrication Application and Methods Mineral Oils, EP Additives, Synthetic Oils LuBase Database Bearing Selection Load Carrying Ability Who Should Attend Any personnel involved with the reliable operation of equipment (i.e. Reliability Engineers, Maintenance Planners, Greasers, Tradesmen, Fitters, Maintenance and Mechanical Apprentices) Course Fee No. of Attendees Practical Handling of High Precision Bearings Course Outline General bearing knowledge-high Precision Bearings Bearing arrangement Journals and tolerances Bearing defects Process when bearing exchange in spindles Assembly preparation Bearing exchange in machine tool spindles Assembling and disassembling methods Lubrication of spindles Installation and handling M/T spindles Course Fee No. of Attendees 1/2 Day $3,600 AUD + GST Onsite 15 Max Work Execution 1 Day $6,300 AUD + GST Onsite 15 Max Word Execution

Short Courses Introduction to Solutions E-Learning Introduction to Oil Seals Course Outline Seal Design Seal types and applications Shaft tolerances and their effect on seal life Identification Materials Compound compatibility Recommended operating conditions How to select Product descriptions Standardisation and rationalisation Who Should Attend Any personnel involved with selecting, requesting, identifying and issuing seals (i.e. Engineers, Draftsmen, Purchasing, Stores, Tradesmen, Fitters, Maintenance and Mechanical / Electrical Apprentices) Course Fee No. of Attendees 1/2 Day $3,600 AUD + GST Onsite 15 Max Work Execution Introduction to Epoxy and Sealant Applications Course Outline Thread locking Retaining Thread sealing Instant Adhesives Epoxies Lubricants Belt Repair Cleaners Machining Compounds Special Products Flange Sealing and Gasketing Contact and Structural Adhesives Flex 80 Urethanes and Rust Prevention Precautions, Handling and Care Who Should Attend Any personnel involved with selecting, requesting and identifying bearings (i.e. Purchasing,Stores, Tradesmen, Fitters, Maintenance and Mechanical / Electrical Apprentices) Course Fee No. of Attendees 1/2 Day $3,600 AUD + GST Onsite 15 Max Work Execution V Belts and Pulleys Course Outline Identification and Types Handling and Storage Matched Sets Correct Fitting and Alignment Maintenance Drive design Upgrades for longer life Standardisation and Rationalisation Who Should Attend Any personnel involved with selecting, requesting, identifying and issuing V Belts and Pulleys (i.e. Design Engineering, Purchasing, Stores, Tradesmen, Fitters, Maintenance and Mechanical / Electrical Apprentices) Course Fee No. of Attendees 1/2 Day $3,600 AUD + GST Onsite 15 Max Work Execution Infrared Thermography Workshop Course Outline Why we use infrared common applications Understanding the nature of infrared radiation How an infrared camera works How to operate an infrared camera focus, range and palette selection, sensitivity optimisation Understanding the capabilities and limitations of an infrared camera Basic introduction to infrared theory and how it relates to practical use Awareness of errors such as emissivity, reflectance, emittance, distance, and target size Advanced Camera operation Hands on tutorial Who Should Attend The Infrared Thermography Workshop is a first step for people just starting out in this field. It is aimed at inexperienced or first time users who want to gain practical experience and insight into the operation of infrared cameras and to start them on the right path for practical use of their instrument in the field. Time 8.00am 5.00pm 1 day Course Fee $7,200 AUD + GST Onsite Work Identification Short Courses Industry Specific pp ic ti n Specific Living Program Motor System Reliability Product & Software SKF Handbook 43

Industry Specific Courses Courses in this section are offered to better understand the behaviour of rolling element bearing service life and how to avoid common pitfalls within rotating machinery applications specific to your industry. SKF Handbook 44

Improving Bearing Reliability in Mining and Mineral Processing Introduction to Solutions E-Learning The course provides comprehensive information on the behaviour of bearings within the Mining and Mineral Processing industry. Understanding and applying the proper techniques of bearing and seal selection, installation, lubrication and maintenance and, understanding issues relevant to bearing system performance. Short Courses n t Specific Course Objectives Avoid common pitfalls leading to reduced rolling bearing service life in mining fixed plant applications. Key Learning Outcomes On completion of this course, students will be able to: Understand the fundamentals of rolling bearing operation and what influences reliability Learn to recognise the common failure modes and causes Understand appropriate fitting and maintenance techniques Course Content Basics of Bearings and Their Applications Spherical roller and plain bearings Tapered roller bearings Cylindrical roller bearings Clearance and preload settings Plummer block assemblies Unit roller assemblies Principles of mounting and dismounting bearings Sealing Requirements Oil seals V-rings Large diameter seals Split seals Expeller seals Customised seals Plummer block seals Function and selection Fundamentals of Lubrication Selection criteria and common mistakes Lubrication issues, contaminants, chemical resistance, cooling water Lube/ oil analysis Grease application Automatic lubricators Centralised lubrication systems Service and Maintenance Issues Preventive and predictive maintenance fundamentals Introduction to bearing failures and their causes Identify and interpret actual bearing failures Condition Monitoring Techniques Understand condition monitoring principles Review of condition monitoring technologies Basics of vibration Reliability issues and failure modes Applications / Machines Crushers Vibrating screens Grinding mills Conveyors Gearboxes Slurry pumps Electric motors Fans Who Should Attend Maintenance fitters; lubrication technicians; reliability technicians. Optional Study In addition to in-person training, students can also update their skills by participating in the following Interactive Computer based courses. SLT 6 Basics of Rolling Element Bearings SLT 7 Mounting of Rolling Element Bearings SLT 8 Dismounting of Rolling Element Bearings and Failure Analysis SLT 9 Vibration Analysis of Rolling Element Bearings * Note For more information on our Interactive Computer based courses, refer to page 29 in the SKF Handbook Time Course Fee No. of Attendees 8.30am 4.30pm 2 days $10,800 AUD + GST Per Class Onsite 15 max Work Execution pp ic ti n Specific Living Program Motor System Reliability Product & Software SKF Handbook 45

Improving Bearing Reliability in Food and Beverage Maintaining proper hygiene is key to product safety compliance. Given the typical operating environment for the Food and Beverage industry, this can be very challenging. High-pressure washdowns can wash away bearing lubrication for rotating equipment, which often leads to corrosion that severely limits bearing life, increases maintenance costs and creates flakingrelated hygiene problems. This course discusses the range of technologies to help prevent these and other issues common to aggressive environments. Course Objectives To teach students how to improve the service life of rolling element bearings in the Food and Beverage industry, which improves the reliability of rotating equipment. Key Learning Outcomes On completion of this course, students will understand proper handling and installation techniques, methods, and practices to minimise the opportunity for premature bearing system failures. Course Content Bearing Basics and Their Application Rolling bearing fundamentals, technology, types and, nomenclature Heat resistance and thermal expansion in graphite bearings Solid oil bearing units and food grade grease CARB toroidal roller bearings to reduce temperature and vibration levels Self aligning bearing systems and balancing Importance of seals and sealed units in extreme temperature conditions Mounting and Dismounting Study the proper bearing mounting and dismounting procedures of CARB roller bearings, Y-bearings, solid oil bearing units, and deep groove ball bearings, as well as selfaligning ball bearings Participate in hands-on demonstrations using specialised tools to correctly mount and dismount bearings Fundamentals of Lubrication Importance of selecting the proper lubricant and lubrication method for an application High temperatures and re-lubrication of bearings High pressure washdowns and lubrication loss Dry lubrication systems for bottle conveyors Bearing Failure Causes and Analysis Bearing fractures, corrosion and grease emulsification caused by freezing and cooling processes Air expansion inside bearings in sub-zero conditions Water ingress and detergent creep in deep groove ball bearings How high loads and high shocks in palletising areas can lead to component failures How high humidity levels affect rotating equipment Identify and interpret actual bearing failures from paper machines Who Should Attend Technicians, Engineers, Managers and Supervisors from various disciplines of Engineering, Condition Monitoring, Electrical, Mechanical, and Reliability. Optional Study In addition to in-person training, students can also update their skills by participating in the following Interactive Computer based courses. SLT 6 Basics of Rolling Element Bearings SLT 7 Mounting of Rolling Element Bearings SLT 8 Dismounting of Rolling Element Bearings and Failure Analysis SLT 9 Vibration Analysis of Rolling Element Bearings * Note For more information on our Interactive Computer based courses, refer to page 29 in the SKF Handbook Time Course Fee No. of Attendees 8.30am 4.30pm 2 days $10,800 AUD + GST Per Class Onsite 15 max Work Execution SKF Handbook 46

Improving Bearing Reliability in Power Generation (Thermal) Introduction to Solutions E-Learning This course provides information on the behaviour of bearings within the thermal power generation industry. Understanding and applying the proper techniques of bearing selection, installation, lubrication and maintenance of bearings and seals, and understanding issues relevant to bearing system performance. Short Courses n t Specific Course Objectives Avoid common pitfalls leading to reduced rolling bearing service life within rotating machinery applications. Key Learning Outcomes On completion of this course, students will be able to: Understand the fundamentals of rolling bearing operation and what influences reliability Learn to recognise the common failure modes and causes. Understand appropriate fitting and maintenance techniques Who Should Attend Maintenance Fitters, Lubrication Technicians and Reliability Technicians. Course Content: Basics of Bearings and Their Applications Spherical roller and plain bearings Tapered roller bearings Cylindrical roller bearings Clearance and preload settings Plummer block assemblies Unit roller assemblies Principles of mounting and dismounting bearings Sealing Requirements Oil seals V-rings Large diameter seals Split seals Expeller seals Customised seals Plummer block seals Function and selection Fundamentals of Lubrication Selection criteria and common mistakes Lubrication issues, contaminants, chemical resistance, cooling water Lube/ oil analysis Grease application Automatic lubricators Centralised lubrication systems Service and Maintenance Issues Preventive and predictive maintenance fundamentals Introduction to bearing failures and their causes Identify and interpret actual bearing failures Condition Monitoring Techniques Understand condition monitoring principles Review of condition monitoring technologies Basics of vibration Reliability issues and failure modes Applications / Machines Conveyors, pumps, motors, gearboxes, turbines Belt feeders Crushers, agitators Fuel handling systems Fans Air compressors Optional Study In addition to in-person training, students can also update their skills by participating in the following Interactive Computer based courses. SLT18 Diagnostics of Thermal Power Plant Machinery SLT 6 Basics of Rolling Element Bearings SLT 7 Mounting of Rolling Element Bearings SLT 8 Dismounting of Rolling Element Bearings and Failure Analysis SLT 9 Vibration Analysis of Rolling Element Bearings * Note For more information on our Interactive Computer based courses, refer to page 29 in the SKF Handbook Time Course Fee No. of Attendees 8.30am 4.30pm 2 days $10,800 AUD + GST Per Class Onsite 15 max Work Execution pp ic ti n Specific Living Program Motor System Reliability Product & Software SKF Handbook 47

WE212 Improving Bearing Reliability in Aggregate and Cement Participants will learn about real solutions to real problems related to bearing reliability and maintenance in machinery used in the aggregate and cement industry. Course Content Bearing Reliability in Aggregate and Cement Machinery uses a combination of lecture, video, discussion and hands-on activities. Specific topics include: Aggregate and cement industry overview Mounted and unmounted rolling element bearings Bearings in aggregate and cement making machinery Crushers, conveyors, vibrating screens Kilns, coolers, roller presses Auxiliary equipment: pumps, gearboxes and motors Bearing installation and maintenance Mounting and dismounting of rolling element bearings Fault detection Bearing damage examples Hands on exercises Impact of safety in the industry Who Should Attend Plant Engineers, Maintenance/Engineering Managers, Rotating Equipment Managers/ Engineers, Reliability Managers/Engineers, Maintenance Supervisors, Foremen/Team Leaders, General Maintenance and Mechanical Foremen, Lubrication Engineers/Technicians, Plant and Maintenance Planners, Mechanical Shop Managers, Foremen and Technicians, Mechanical Repair Services Providers, Maintenance Services Contractors/Technicians, Maintenance Operations Coordinators, Millwrights, Maintenance Administrators and Technical Maintenance Trainers. Pre-Study E-Learning courses GRB002 Spherical Roller Bearings GRB005 Taper Roller Bearings Reading material Cement Industry Post-Study Reading material Drive Shafts for Grinding Mills Bearing Arrangements for Cement Industry Fans Hammer Mills and Impact Crushers Optional Study In addition to in-person training, students can also update their skills by participating in the following Interactive Computer based courses. SLT4 Vibration Diagnostics of Cement Plant Machinery SLT 6 Basics of Rolling Element Bearings SLT 7 Mounting of Rolling Element Bearings SLT 8 Dismounting of Rolling Element Bearings and Failure Analysis SLT 9 Vibration Analysis of Rolling Element Bearings * Note For more information on our Interactive Computer based courses, refer to page 29 in the SKF Handbook Time Course Fee No. of Attendees 8.30am 4.30pm 2 days $10,800 AUD + GST Per Class Onsite 15 max Work Execution SKF Handbook 48

Improving Bearing Reliability in Oil and Gas Industries Introduction to Solutions E-Learning This course provides information on the behaviour of bearings within the Oil and Gas processing industry. Understanding and applying the proper techniques of bearing selection, installation, lubrication and maintenance of bearings and seals, and understanding issues relevant to bearing system performance. Short Courses n t Specific Course Objectives Avoid common pitfalls leading to reduced rolling bearing service life within rotating machinery applications. Key Learning Outcomes On completion of this course, students will be able to: Understand the fundamentals of rolling bearing operation and what influences reliability. Learn to recognise the common failure modes and causes. Practice appropriate fitting and maintenance techniques. Course Content Basics of Bearings and Their Applications Spherical roller and plain bearings Tapered roller bearings Cylindrical roller bearings Clearance and preload settings Plummer block assemblies Unit roller assemblies Principles of mounting and dismounting bearings Sealing Requirements Oil seals V-rings Large diameter seals Split seals Expeller seals Customised seals Plummer block seals Function and selection Fundamentals of Lubrication Selection criteria and common mistakes Lubrication issues, contaminants, chemical resistance, cooling water Lube/ oil analysis Grease application Automatic lubricators Centralised lubrication systems Service and Maintenance Issues Preventive and predictive maintenance fundamentals Introduction to bearing failures and their causes Identify and interpret actual bearing failures Condition Monitoring Techniques Understand condition monitoring principles Review of condition monitoring technologies Basics of vibration Reliability issues and failure modes Applications / Machines Gas Compressors (Centrifugal & Reciprocating) Air Compressors Process, Utilities and DE Fire Pumps Centrifuges Gearboxes Pedestal Cranes Electric motors Fans Optional Study In addition to in-person training, students can also update their skills by participating in the following Interactive Computer based courses. SLT 6 Basics of Rolling Element Bearings SLT 7 Mounting of Rolling Element Bearings SLT 8 Dismounting of Rolling Element Bearings and Failure Analysis SLT 9 Vibration Analysis of Rolling Element Bearings * Note For more information on our Interactive Computer based courses, refer to page 29 in the SKF Handbook Time Course Fee No. of Attendees 8.30am 4.30pm 2 days $10,800 AUD + GST Per Class Onsite 15 max Work Execution pp ic ti n Specific Living Program Motor System Reliability Product & Software SKF Handbook 49

WE220 Wind Turbine Shop Bearing Maintenance Improve the reliability of wind turbines after repair or refurbishment. Emphasis is on safe removal, repair and installation of bearings and related components in wind turbines using precision maintenance techniques Course Content Improve the service life of machinery in wind turbines Each part contains: - Key concepts for shop repair personnel - Hands-on practical work as needed Blade hub Bearing arrangements: Slewing rings Slewing ring installation Lubricating/re-lubricating bearings with grease Main shaft bearings Bearing arrangements Controlling expansion: locating/non-locating concept Lubricating open bearings and housings with grease Hands-on: - Shaft and housing conformance measurement - Mounting and dismounting tapered bore bearings - Spherical and CARB feeler blade mounting - Accurate drive-up method Wind turbine gearboxes Bearing arrangements Static, splash, and circulating oil lubrication Selecting the proper and approved lubricant Gearbox run-in Contamination detection and control Wind turbine generators Bearing arrangements Long-life grease lubrication large generators Cylindrical shaft and housing fits Safe dismounting and mounting, fretting control Problem Solving: - Controlling stray currents - Controlling fretting corrosion Yaw section Bearing arrangements Long-life grease lubrication Visual inspection Who Should Attend Wind power industry shop personnel, including: shop maintenance and repair mechanics, fitters, installers, engineering support staff, condition monitoring staff, reliability engineering and wind farm management personnel. Also, those interested in improving the reliability of wind turbines with world class maintenance and repair practices. Pre-Study E-Learning courses GRB001 Bearing Basics GRB006 Deep Grove Ball Bearings GRB002 Spherical roller bearings Post-Study E-Learning courses GRB005 Tapered roller bearings WE170 Basics of Seals for Rotating Motion Reading Material Proper bearing handling and storage Optional Study In addition to in-person training, students can also update their skills by participating in the following Interactive Computer based courses. SLT 6 Basics of Rolling Element Bearings SLT 7 Mounting of Rolling Element Bearings SLT 8 Dismounting of Rolling Element Bearings and Failure Analysis SLT 9 Vibration Analysis of Rolling Element Bearings * Note For more information on our Interactive Computer based courses, refer to page 29 in the SKF Handbook Time Course Fee No. of Attendees 8.30am 4.30pm 2 days $10,800 AUD + GST Per Class Onsite 15 max Work Execution SKF Handbook 50

WE221 Wind Turbine Uptower Bearing Maintenance Improve the service life of machinery in operational wind turbines. Achieve extended service life using best-in-class maintenance and repair practices of components common to all wind turbines. Emphasis is on safe, precision maintenance and re-lubrication of bearings and related components in operational wind turbines. Onsite repairs are also included Introduction to Solutions E-Learning Short Courses n t Specific Course Content Improve the service life of machinery in wind turbines Each part contains: - Key concepts for uptower personnel - Hands-on practical work exercises Blade hub Bearing arrangements: Slewing rings Slewing ring installation Lubricating/re-lubricating bearings with grease Main shaft bearings Bearing arrangements Controlling expansion: locating/non-locating concept Lubricating bearings and housings with grease Procedures for dismounting and mounting couplings Inspections for main shaft bearing problems Wind turbine gearboxes Bearing arrangements Static/splash and circulating oil lubrication Oil change-out procedures Contamination detection and control Wind turbine generators Bearing arrangements Long-life grease lubrication large generators Cylindrical shaft and housing fits Safe dismounting and mounting Controlling fretting corrosion Controlling stray currents Yaw section Bearing arrangements Long-life grease lubrication Visual inspection Retrofitting Automatic lubrication systems Who Should Attend Wind power industry uptower maintenance personnel, including: field service technicians, onsite wind farm management, fitters, installers, engineering support staff, condition monitoring staff, and reliability engineering. Also, those interested in improving the reliability of in-service wind turbines with world class maintenance and repair practices Pre-Study E-Learning courses GRB001 Bearing Basics GRB002 Spherical Roller Bearings Reading material Wind Turbines loom Large Post-Study E-Learning courses GRL001 Lubrication Basics Reading material Wind Turbines Wind assistance Optional Study In addition to in-person training, students can also update their skills by participating in the following Interactive Computer based courses. SLT 6 Basics of Rolling Element Bearings SLT 7 Mounting of Rolling Element Bearings SLT 8 Dismounting of Rolling Element Bearings and Failure Analysis SLT 9 Vibration Analysis of Rolling Element Bearings * Note For more information on our Interactive Computer based courses, refer to page 29 in the SKF Handbook Time Course Fee No. of Attendees 8.30am 4.30pm 2 days $10,800 AUD + GST Per Class Onsite 15 max Work Execution pp ic ti n Specific Living Program Motor System Reliability Product & Software SKF Handbook 51

Application Specific Courses Courses in this section focus on the most common types of rotating equipment, using a system approach to machinery life extension. SKF Handbook 52

WE202 Bearing in Rotating Machinery Applications This course focuses on the four most common types of rotating equipment: motors, fans, pumps and gearboxes using a system approach to machinery life extension. Familiar machinery is used as a starting point to teach/learn world-class techniques for installation, maintenance, troubleshooting and repair that can be carried over to all types of rotating machines. Course Content Industrial motors Learn advanced concepts related to rolling bearings - Friction and sealed-for-life bearings Factors effecting the performance of rolling bearings - Component conformance measuring for: Shaft and housing fits Installation errors Maintenance practices Troubleshooting and preventing common motor problems: - Stray currents - Improper bearing installation - Lubrication: large and small motor lubrication discussion Motor condition monitoring: methods and practice Industrial fans Bearing mounting and dismounting procedures on tapered adapters and tapered shafts using the accurate drive-up method Locating and non-locating bearings: controlling heat expansion Lubrication of open bearings in pillow blocks and split housings Detecting and correcting unbalance Rebuilding fan applications for peak performance Industrial pumps Controlling thrust loads in applications ANSI vs. API pumps: design overview Fluid machinery: common problems and corrections - Cavitation, off-bep operation, low bearing service life - Case studies of typical failures Industrial gearboxes Coupling machinery: alignment overview Selecting the proper lubricant: Oil lubricated machinery - The role of chemical additives in lubricants - Synthetic lubricants discussion Gearbox monitoring and inspection - Detecting gear problems - Oil analysis - Low and high frequency vibration monitoring - Damage verification with the Borescope Pre-Study E-Learning courses GRB002 Spherical Roller Bearings GRB003 Angular Contact Ball Bearings GRB006 Deep Groove Ball Bearings Post-Study Reading material Rolling Bearings in Electrical Motors and Generators Bearings for Fans Rolling Bearings in Centrifugal Pumps Who Should Attend Service, maintenance, machine repair, or plant/facility engineering staff of an industrial plant, OEM facility, public utility which uses rolling bearings and related equipment. Managers and technicians at industrial plants and OEM facilities responsible for rolling bearing performance and reliability. Rotating equipment engineers, reliability engineers, mechanics, and maintenance supervisors. Time Course Fee 8.30am 4.30pm 2 days $10,800 AUD + GST Onsite Work Execution Course fee is per person for a Public course. Refer to Enrolment Form on page 125. Introduction to Solutions E-Learning Short Courses Industry Specific Application Specific Living Program Motor System Reliability Product & Software SKF Handbook 53

WI270 Improving Crusher Reliability This course provides information that will enable maintenance personnel to increase plant productivity by improving the performance and reliability of rotating equipment. Students will understand best practices in crusher selection and maintenance and the value of preventive maintenance by conducting careful maintenance practices and planning. They will understand what to look for in inspections and will be able to provide feedback on the condition of the equipment and what (if any) should be done to rectify the deficiencies that are found. Course Content Introduction to Crusher Selection General Crusher Selection based on Abrasive Index (AI) & Impact Values which helps to select the appropriate crusher for a given ore type, i.e. Hardness & Abrasiveness A brief description of how the crushers operate An understanding of the common industry terminology The Value of Preventative Maintenance Monitoring and measurement Replacement of components due to normal wear Damage caused by failure to adjust or replace worn parts Damage caused by foreign influences Recording and review of data Maintaining Primary, Secondary and Tertiary Crushers Crushing action comparison between Single and Double Toggle Crushers General arrangement of typical single toggle jaw crusher Advantages of rolling end toggles over conventional socket end type Checklist (Daily, Weekly, Monthly) General rule of thumb principles Understanding the crusher chamber Types of cone crushers bottom support What causes Hot Spots Fret Corrosion Checking C.S.S of Gyratory and Tertiary Crushers Maintaining Impact Crushers Vertical & Horizontal Typical Problems and Solutions - Impact Crushers Maintaining Screens Fundamentals of Screening Screen types Screening Media Troubleshooting (Inclined or Horizontal Screens, Vibrating Screens) Common screen cloth failures Maintaining Feeders Grizzly Feeder Apron Feeder Vibrating Feeder Maintaining Conveyors General maintenance checks (Belts & Rollers, Lanyard Safety Switches, Gear-box lubrication, Spillage, Visual inspection) Bearing Types, Analysis, Lubrication & Failure Functions of rolling bearing Bearing Mounting (Tightening angle, clearance reduction, axial drive-up) Lubrication Bearing Failures Monitoring Crushers Specialist techniques to monitor crushers for vibration and temperature, providing early warning for plant personnel to avoid unplanned downtime and unnecessary repairs. These easy to install, cost effective kits are a proven and reliable solution for increased uptime. Optional Study In addition to in-person training, students can also update their skills by participating in the following Interactive Computer based courses. SLT 6 Basics of Rolling Element Bearings SLT 7 Mounting of Rolling Element Bearings SLT 8 Dismounting of Rolling Element Bearings and Failure Analysis SLT 9 Vibration Analysis of Rolling Element Bearings * Note For more information on our Interactive Computer based courses, refer to page 29 in the SKF Handbook Time Course Fee 8.30am 4.30pm 2 days $1,475 AUD + GST Onsite & Public Work Identification, Work Execution Course fee is per person for a Public course. Contact SKF for Onsite course fee. Refer to Enrolment Form on page 125. SKF Handbook 54

Improving Bearing Reliability in Conveyors Whether transporting coal, iron ore or other minerals on mine sites and quarries; or bulk materials such as wheat, wood chips, sugar or alumina; bulk conveyors often endure harsh operating conditions that challenge component reliability. These conditions range from heavy loads, to hot, cold, wet, dry, dusty, and dirty environments. Also, lubrication issues and poor installation practices, all of which can significantly reduce service life for bearings and other components. This course provides information for the successful installation and maintenance of rolling element bearings and housings on conveyor pulley assemblies. Introduction to Solutions E-Learning Short Courses Industry Specific Application Specific Course Content Overview of conveyor pulley maintenance Conveyor fundamentals Anatomy of a conveyor pulley bearings, housings, shaft, locking elements, Impact of maintenance practices on conveyor pulleys Bearing operating characteristics Typical bearing & housing configurations Common conveyor bearing problems & implications - contamination, lubrication issues, incorrect mounting, cross location etc. Bearing arrangements used on conveyor pulleys Bearing types and designations Housing types & components Seal types Adapter sleeves Teardown and bearing dismounting Dismounting methods Shaft & housing clean-up Tolerances shaft & housing bores Fits & tolerances Mounting bearings with tapered bores Mounting methods - locknut tightening angle Mounting methods - clearance reduction Mounting methods axial drive-up Mounting methods SKF Drive-up Housing assembly and lubrication Housing assembly procedures Introduction to grease lubrication Pulley installation Alignment Re-lubrication methods Cross location In-situ bearing mounting Introduction to bearing damage analysis Failure modes ISO classification Practical Workshop The hands-on session will provide an understanding of the correct assembly and maintenance aspects of a typical conveyor housing arrangement. Students will learn proper handling and installation techniques, methods, and practices to minimise the opportunity for premature bearing failures: Where and how to measure a shaft and housing for conformance. How to correctly install both taconite and SKF Kobra seals. Various bearing fitting techniques applicable to open and sealed bearings with adapter sleeves. How to correctly lubricate, seal and assemble the housings and seals. How to check alignment of the housing and seals arrangements. Correct way to set up lubrication to open or closed housings. Site Visit (optional) A 1 hour site visit can be incorporated into the training, as an extension to the classroom learning. Trainer will walk the group through a visual inspection of the conveyors, conduct an informal audit and assess current conveyor operation and maintenance practices. Time Course Fee No. of Attendees 8.30am 4.30pm 1 day $7,200 AUD + GST Per Class Onsite 8 max Work Execution Course Fee for a maximum of 8 attendees per class. Refer to Enrolment Form on page 125. Living Program Motor System Reliability Product & Software SKF Handbook 55

WE211 Fundamentals of Pump Technology NEW The purpose of this course is to provide pump operational personnel with a deeper understanding of how pumps are designed, manufactured and tested to suit particular application requirements. It looks at the relationship between system design and pump performance and analyses the impact that the operating point (or points) may have on pump efficiency, energy consumption and operating reliability. Course Content This course seeks to improve the knowledge of operational staff with a clear understanding of different pumps types, and matching pump selection to the system requirements. It considers the utilisation of condition monitoring equipment to continuously assess pump performance in service. It also aims to achieve greater operational reliability; energy cost savings and reduced downtime. Pump Types & Construction/Pump Standards Rotodynamic pumps Positive displacement pumps Centrifugal pump operating principles Specific speed and its implications European and US pump standards Pump Terms, Suction & Discharge Conditions Pump Terminology Suction conditions Discharge conditions System Curves, Pump Curves, Pump Selection Static head and friction loss in systems System resistance curves how to determine Pump performance curve - how to use Pump selection for different system conditions NPSH & Cavitation Pump QA and Performance Testing Pump Quality Plans Material tests and Non-destructive testing Works performance testing Site testing Pump Installation Practices Good suction pipework design Good discharge pipework design Pumpset installation and commissioning Alignment techniques Condition Monitoring & Troubleshooting Condition monitoring methods and systems Typical cause and effect trouble-shooting Typical Maintenance Procedures End suction pumps Vertical multistage pumps Axially split case pumps Bearing & seal maintenance Who Should Attend Application Engineer, Condition Monitoring Engineer/ Technician, Electrical Engineer/Fitter/Manager/ Supervisor/Technician, Engineering Draftsman/ Manager/Supervisor, Mechanical Maintenance Engineer/Manager/Supervisor/Technician/Fitter/ Lubrication Fitter, Operations Manager/Supervisor, Planning Manager, Quality Engineer, Reliability Engineer/Manager/Supervisor, Store Supervisor. Reading & Reference Material Pump Industry Association - Technical Handbook Pump Industry Association - Pipe Friction Handbook Europump - Guide to the selection of rotodynamic pumps Time Course Fee No. of Attendees 8.30am 4.30pm 1 day $7,200 AUD + GST Per Class Onsite 12 max Work Execution SKF Handbook 56

WE213 Improving Bearing Reliability in Industrial Fans This course provides information and training that will enable maintenance & engineering personnel, at all levels, to increase efficiency and reliability of industrial fans in a real world environment. Students will understand best practice for selection, application, installation, inspection and maintenance of different fan units and understand the value of quality maintenance practices. During this course the student will experience both theory and practical training which will increase their effectiveness during maintenance and engineering activities. Introduction to Solutions E-Learning Short Courses Industry Specific Application Specific Course Content Review of Bearing Basics Specifics of rolling bearing terminology, components, care and lubrication. Review common bearings typically seen in fans. Correct bearing mounting/dismounting techniques including clearance reduction, hydraulic axial drive up. Practical hands on tasks in various methods of mounting and dismounting using specialised tools and techniques. Fan Basics Classifications of fans and there components. Different drive arrangements and their advantages/disadvantages. Different components that a make up a fan system Identify the most highly stressed areas. Hands on identification and inspection of critical areas of impellers and fan casings. Practical introduction to dye penetrant techniques, and areas in which to conduct the test Introduction to Fan Laws & Selection Basic theory of Fan Laws to identify problems and improvements Understanding the Fan Curve is essential in understanding the parameters in which a fan can operate. Students will learn to interpret the fan curve. Learn the theory and practical applications pertaining to the effects heat, elevation, speed, volume & pressure. Common air flow faults, symptoms and rectification. Value of Preventative Maintenance Discuss and demonstrate the effects on operation and efficiency due to; Impeller cleanliness Balance Alignment Bearing lubrication Air leaks & restrictions During this module students will have practical experience diagnosing and rectifying common fan and bearing faults. Industries that will benefit Mining Mineral Processing Pulp and Paper Chemical Pharmaceutical Oil and Gas Power Generation Maintenance Contractors Consultancy Service Providers Industries where fans are used Who Should Attend Application Engineer, Condition Monitoring Engineer/Technician, Electrical Engineer/Fitter/ Manager/Supervisor/Technician, Engineering Draftsman/Manager/Supervisor, Mechanical Maintenance Engineer/Manager/Supervisor/ Technician/Fitter/Lubrication Fitter, Operations Manager/Supervisor, Planning Manager, Quality Engineer, Reliability Engineer/Manager/ Supervisor, Store Supervisor. Optional Study In addition to in-person training, students can also update their skills by participating in the following Interactive Computer based courses. SLT3 Vibration Analysis of Industrial Fans SLT 6 Basics of Rolling Element Bearings SLT 7 Mounting of Rolling Element Bearings SLT 8 Dismounting of Rolling Element Bearings and Failure Analysis SLT 9 Vibration Analysis of Rolling Element Bearings * Note For more information on our Interactive Computer based courses, refer to page 29 in the SKF Handbook Time Course Fee No. of Attendees 8.30am 4.30pm 2 days $10,800 AUD + GST Per Class Onsite 15 max Work Execution Living Program Motor System Reliability Product & Software SKF Handbook 57

WE215 Electric Motor Maintenance Electric motors are among the highest in reliability incident reports. For many companies, this leads to a continual cycle of costly repairs and unplanned downtime factors that can hurt the bottom line. Since 40% to 70% of motor failures are related to bearings, it s no surprise that high-quality bearings are key for reliable motors. The right bearings alone won t deliver the results you need. How parts are installed, lubricated, handled, stored, aligned, and maintained is equally important This training course will train students to disassemble, inspect, maintain, and troubleshoot AC Induction motors including a practical motor overhaul. Key Learning Outcomes 1. An effective implementation of electrical motor maintenance will translate into savings from production availability, reduced equipment repair costs and improved energy costs. 2. Students will have an appreciation and understanding to perform optimal diagnoses and repairs. 3. Students will learn the techniques and obtain valuable information to detect motor problems prior to failure, avoiding costly downtime. Course Content Motor Maintenance Motor parts overview Repair overview Electrical testing Predictive maintenance motor diagnostics Electrical motor tests - Winding Resistance - Meg-ohm Test - Polarisation Index (PI) - Hipot Test - Surge Test Turn to turn failure Bearing arrangements Bearing basics: electric motor bearings Locating / non-locating bearing arrangements Thermal growth Horizontal arrangement medium size motors - small motors Bearing arrangements: belt drive motors Vertical electric motors Variable speed motors Motor teardown and bearing dismounting Identifying bearings for replacement Bearing dismounting methods - Hydraulic puller - Arbor press Post dismounting procedures Shaft and housing fits Checking fit integrity Mounting preparations Bearing seat run-out and form tolerance Radial and axial clearance Motor assembly and bearing mounting Cold mounting Induction heating Lubrication Bearing life Grease selection and procedures Contamination Typical lubrication mistakes Grease ducts and fittings CONTINUES NEXT PAGE SKF Handbook 58

Introduction to Solutions Electric Motor Maintenance (cont.) Final tests and delivery procedures Post motor service: testing Mechanical integrity - Foot flatness - Vibration levels - Motor temperature - Rotor balancing - Shaft run out Circulating currents Preparing motor for transportation and storage Bearing failure analysis Why bearings fail Wear path patterns Examining failure samples Benefits of failure analysis Practical motor overhaul Hands-on practical exercise Industries that will benefit Food and Beverage Mining Cement Steel Mineral Processing Printing Pulp and Paper Oil and Gas Pharmaceutical Manufacturing Petrochemical Power Generation Municipal Utilities Motor Rewinders Maintenance Contractors Timber Pump Manufacturers Chemical Who Should Attend Condition Monitoring Engineer/Technician, Electrical Manager/Supervisor, Engineering Manager/Supervisor, Mechanical Maintenance Engineer/Manager/Supervisor, Operations Manager/Supervisor, Quality Engineer, Reliability Engineer/Supervisor/Manager. Time Course Fee 8.30am 4.30pm 2 days $1,475 AUD + GST Onsite & Public Work Execution Course fee is per person for a Public course. Contact SKF for Onsite course fee. Refer to Enrolment Form on page 125. E-Learning Short Courses Industry Specific Application Specific Living Program Motor System Reliability Product & Software SKF Handbook 59

WE214 Improving Bearing Reliability in Paper Machines To provide information to improve the service life of rolling element bearings in paper machines. Course Content Review of Bearing basics Learn the specifics of rolling bearing technology, care, nomenclature, bearing components, terminology, loads and lubrication in paper machines Review the specific types of bearings typically found in paper machine applications Gain a basic understanding of why and how bearings fail in paper machines The importance of proper storage, care and handling Shaft and journal preparation Learn how to measure cylindrical and tapered shafts and journals. Participate in hands-on activities using a sine bar gauge Study the methods to determine proper shaft and housing fits in a variety of paper applications and how this effects internal radial clearances Mounting and dismounting Study proper bearing mounting and dismounting procedures including, measuring the internal radial clearance of large bore spherical roller bearings and the axial drive up method Participate in hands-on demonstrations using specialised tools and techniques to correctly mount and dismount spherical roller bearings Special housings Study the different types of housings used in the felt and dryer sections and what requirements are needed for these applications Fundamentals of lubrication See how important it is to select the proper lubricant and lubrication method for an application Learn to maximise bearing life through an improved understanding of proper lubricating principles and functions Review circulating oil systems Bearing damage causes and analysis Identify and interpret actual bearing failures from paper machines Who Should Attend Service, maintenance, machine repair, roll shop or plant/facility engineering staff of a paper machine. Managers and technicians of paper machines and OEM facilities responsible for rolling bearing performance and reliability. Rotating equipment engineers, reliability engineers, mechanics, and maintenance supervisors. Pre-Study E-Learning courses GRB002 Spherical Roller Bearings GRB004 CARB toroidal roller bearings Reading material High-speed bearing system for future generations of paper machines Post-Study Reading material Improved lubrication in paper machines Lubrication Practices in Pulp & Paper Mills The better bearing solution for drying and yankee cylinders Optional Study In addition to in-person training, students can also update their skills by participating in the following Interactive Computer based courses. SLT19 Diagnostics of Paper Plant Machinery SLT 6 Basics of Rolling Element Bearings SLT 7 Mounting of Rolling Element Bearings SLT 8 Dismounting of Rolling Element Bearings and Failure Analysis SLT 9 Vibration Analysis of Rolling Element Bearings * Note For more information on our Interactive Computer based courses, refer to page 29 in the SKF Handbook Time Course Fee No. of Attendees 8.30am 4.30pm 2 days $10,800 AUD + GST Per Class Onsite 15 max Work Execution SKF Handbook 60

WE216 Machine Tool Reliability This course will train personnel in the area of precision bearings and spindle repair. It will provide knowledge on how to improve the service life and the reliability of precision bearings and spindles and increase productivity. The Machine Tool Reliability course uses a combination of hands-on training, audio visual, lecturers and discussion opportunities. Introduction to Solutions E-Learning Short Courses Industry Specific Course Content Precision Bearing basics Function of precision bearings Fundamentals of precision bearing technology, types, nomenclature, terminology, components and materials used, and application Proper care, handling, and storage Ceramic bearings Spindles Spindle types: block, cartridge, belt driven, gear driven, direct drive and motorised Design criteria -Accuracy -Stiffness -Speed -Preload Dimensional criteria -Cleanliness -Disassembly -Shaft and housing fits -Mounting and locating -Balancing and shaft alignment -Set preload on NN cylindrical bearings -Sealing methods Lubrication Grease, type and quantity Air-oil, type and quantity Run-in procedures Failure analysis Identify and interpret actual samples of bearing failures Contamination Imbalance Misalignment Dimensional and handling errors Condition monitoring Methods and practices Who Should Attend Machine tool repair personnel, machine tool builders, maintenance supervisors, maintenance personnel, spindle room personnel, plant engineers, and reliability engineers. Pre-Study E-Learning courses GRB001 Bearing Basics GRB006 Deep Groove Ball Bearings GRB003 Angular Contact Ball Bearings Post-Study Reading material Machine tool capabilities Lubrication solutions for machine tools Trends in Machine-Tool Spindle Design Time Course Fee No. of Attendees 8.30am 4.30pm 2 days $10,800 AUD + GST Per Class Onsite 15 max Work Execution Application Specific Living Program Motor System Reliability Product & Software SKF Handbook 61

Courses Courses in this section are intended for personnel who have limited field experience. These courses are taught using a blended learning approach with a combination of classroom training and practical workshops to improve overall learning effectiveness. SKF Handbook 62

MS230 Maintenance Strategy Review (MSR) Awareness - Before we explore the technical details of strategy, we must know about each organisation, what their issues are, why these issues matter, and how the issues can be incorporated into a plan. There must be a documented need to look at an existing maintenance strategy or create a new one for the right and unique business reasons. Maintenance Strategy is the key to asset reliability and availability, thus achieving overall organisational goals. How do you know if a review of your maintenance strategy is required and why? Introduction to Solutions E-Learning Short Courses Industry Specific pp ic ti n Specific Course Objective The course objectives are to ensure that each participant will: know if a review of strategy is required and why recognise the importance of data structure and content before any kind of strategy work is commenced understand the importance of identifying and categorising assets understand that there are different types of criticality at various levels of maintenance understand what will likely be involved in total to conduct the right analysis, but then what the implications are of making the strategy work recognise the commonalities and differences in possible strategies understand that the conduct of MSR has important implications to spares understand that certain classes of equipment require specialised approaches to strategy review (i.e., SCS > via SIL/IPF) Course Content The purpose of this course is to make users aware of MSR and how they can apply it within their work. These are the topics: Chapter 1: Conceptual models and business context Chapter 2: Obtain a common understanding of terminology Chapter 3: Standards, models, and excellence Chapter 4: Understanding the current situation Chapter 5: The essential link - failure and strategy Chapter 6: What is strategy? Chapter 7: Mutual understanding and readiness Chapter 8: Can we conduct MSR? Chapter 9: A blend of MSR types Chapter 10: How to implement well Chapter 11: Performance management and measurement Chapter 12: How MSR forms the basis of Predictive and Proactive Reliability Maintenance programs Who Should Attend Maintenance, Plant/Facility Engineering staff, Rotating Equipment Engineers and Maintenance Supervisors Managers at industrial plants, Reliability Engineers and those interested in rotating equipment performance Pre-Study E-Learning courses MS100 AEO Basics MS130 Maintenance Strategy Review Reading material Maintenance Strategy Review Methods Post-Study Reading material Asset register Managing asset integrity Business process improvement Time Course Fee 8.30am 4.30pm 3 days $2,195 AUD + GST Onsite & Public Maintenance Strategy Course fee is per person for a Public course. Contact SKF for Onsite course fee. Refer to Enrolment Form on page 125. Living Program Motor System Reliability Product & Software SKF Handbook 63

Graduate Engineers : Proactive Maintenance Skills Through this course, Graduate Engineers will understand current trends in maintenance methodologies, and how precision and proactive approaches and their direct interaction with machinery, fit into an overall reliability program. This training course will teach the precision and proactive practices necessary to maintain a machine to the highest possible level. Graduates will learn techniques that aid in the assembly and setup of machinery that provide measurable improvements in machine performance as measured with basic vibration readings. Course Objectives 1. To gain an understanding of bearing, seal and lubrication technologies and theories used in selection processes of typical industrial applications 2. Why we need different types of bearings and why a specific bearing is chosen for an application 3. Learn how to successfully install and maintain rolling element bearings in rotating machinery 4. Provide background and methodology for analysing failed and damaged bearings (due to noise, heat, vibration) and their components 5. Learn to identify bearing failure modes and classifications 6. Learn principles and procedures for installing, checking and adjusting mechanical drives, transmissions and their components 7. Principles and methods of equipment condition monitoring to be understood and selected to achieve required outcomes Course Content A. Bearings & Seals Technology Introduction to bearing types and selection methodology Bearing arrangements in common rotating equipment Bearing life calculations Housing & seal types and their applications Shaft and housing fits and tolerances Principles of bearing mounting & dismounting Practical session mounting & dismounting of bearings B. Lubrication Fundamentals Lubrication management Importance of viscosity Grease lubrication selection and application Relubrication intervals and procedures Oil lubrication application and methods Lubricant storage and management Calculation of various lubrication parameters C. Bearing Damage Analysis Load path patterns in bearings ISO 15243 - bearing damage classification & methodology Analysis of sample bearing damages D. Power Transmission Application, Assemby and Maintenace Principles and functions of mechanical drives and components Install and adjust mechanical drives and transmission assemblies Tools and techniques required to tension, align, balance & adjust drives and components Fault diagnosis and preventative measures Repair and troubleshoot mechanical drives and transmission assemblies E. Condition Based Maintenance Common types of maintenance Condition monitoring techniques Fundamentals of vibration Setting up vibration measurements Thermography & temperature measurements Motor testing & diagnostics Pulley & shaft alignment fundamentals Alignment process and challenges SKF Handbook 64 CONTINUES NEXT PAGE

Graduate Engineers : Proactive Maintenance Skills (cont.) Target Audience 1. Entry level Design & Application Engineers directly responsible for machine design incorporating rolling element bearings 2. Newly recruited Mechanical, Electrical & Reliability Engineers interested in optimising rolling element bearing performance in rotating equipment Key Learning Outcomes By the end of this training course, engineers will learn how to extend bearing service life, reduce machine downtime and minimise unplanned maintenance activities by being able to: - Select the right bearing, lubricant and sealing arrangements for specific applications using various calculation tools. - Select appropriate dimensions and tolerances for housings and shafts. - Incorporate appropriate bearing mounting & dismounting requirements into designs. - Successfully install and maintain rolling element bearings in rotating machinery. - Choose, apply and maintain lubricants, and lubricating procedures in bearing applications. - Perform bearing damage analysis and determine the likely cause of failure as per the ISO classifications of failure modes. - Select, maintain and diagnose correct transmission components belts, chains and couplings. - Select appropriate condition monitoring techniques for different applications. Introduction to Solutions E-Learning Short Courses Industry Specific pp ic ti n Specific Living Program Motor System Reliability Product & Software Time Course Fee 8.30am 4.30pm 4.5 days $2,280 AUD + GST Onsite & Public Maintenance Strategy Course fee is per person for a Public course. Contact SKF for Onsite course fee. Refer to Enrolment Form on page 125. SKF Handbook 65

Asset Reliability Awareness - Stakeholders in Maintenance, Engineering, Procurement and Operations need to have a clear understanding and appreciation of Asset Reliability function. Positive inter-functional interaction is key to improving asset reliability and availability, thus achieving overall organisational goals. The course provides participants with an appreciation and awareness of the core processes and methods employed by the reliability function. Course Objectives The course objectives are to ensure that each participant will: Understand the concepts and terminology used in Asset Management and Reliability Engineering Gain a practical appreciation of how the concepts are applied in the real world Understand why asset criticality matters and how it is applied Gain an appreciation of the various available mitigation methods and techniques Gain an understanding and appreciation of how the related functions such as Maintenance, Capital Engineering, Procurement, Operations are impacted by and can contribute to Reliability function. Course Content The course is designed as a practical hands-on workshop that addresses Reliability Principles, Strategy and Implementation. At the end of each module participants complete a practical exercise that embeds the learning. Where possible/ applicable these exercises are tailored to be site specific. Chapter 1: What is an Asset: Hierarchy, Plant, Assemblies, Assets, and Components? Exercise on identifying hierarchy and nominating levels Chapter 2: What is Asset Function: Primary, Secondary Functions? Exercise on defining Asset Function Chapter 5: What is Asset Maintenance: Failure Mitigation? Mitigation Options: Predict, Prevent, Run-to-Fail Chapter 6: Why Predict? What is the impact? What is P-F Interval? What is the impact? What are the Predictive Techniques? Chapter 7: Why Prevent? What is the impact? What are the Preventive Techniques? Exercise on Maintenance Strategy Development Chapter 8: What is Defect Elimination? Basics and benefits of Root Cause Analysis Exercise on simple Root Cause Analysis Who Should Attend Maintenance Trades, Supervisors, Maintenance Planners, Schedulers, Store staff Plant Operators, Operations Supervisors Plant/Facility Engineering and Procurement staff Time 8.30am 4.30pm 1 day Course Fee $9,150 AUD + GST Onsite Maintenance Strategy Course Fee for a maximum of 8 attendees per class. Refer to Enrolment Form on page 125. Chapter 3: What is a Functional Failure, what are Failure Modes and Effects? Exercise on Asset Failure Modes and Effects. Chapter 4: What is Asset Criticality: Categories, Severity, Likelihood? Exercise on Criticality Assessment SKF Handbook 66

WI201 Condition Based Maintenance - This course will introduce the various concepts of Condition Based Maintenance. Students will be able to understand and operate the various tools used in identifying machinery health problems and describe the machine condition to provide measurable improvements in performance. The course will particularly emphasise the use of machinery vibration as a tool to determine machine health and identify root cause problems. Introduction to Solutions E-Learning Short Courses Industry Specific Course Objectives Teach students how the principles of changes in health, or condition, of a machine often produce changes in the machine s vibration. Students will be able to determine the condition of machinery as it operates, to schedule the most efficient and effective repair of problem components prior to failure. Introduce the ideal condition based model - detection, analysis, correction, verification. Examples of condition based parameters - vibration, bearing temperature, thermography, lubricant condition, motor current, ultrasonics. Introduce the concept of vibration and how it applies to bearing vibration analysis in the detection of bearing defects and faults Introduce vibration sensor types, mounting methods and applications Introduce the concept of spectrum analysis, and general overview of how analysts recognise and analyse typical machinery problems Setting up vibration measurement sites and parameters, types of condition monitoring alarms and vibration signal processing methods. Course Content Common types of Maintenance Basics of Condition Monitoring Technologies Introduction to Machinery Vibration Analysis What is Vibration? Vibration Sensors Setting up for Vibration Measurement. Practical exercises using all of the tools discussed during the course to identify common seeded faults in portable dynamic demonstration rigs. Results are then reported and discussed as a class. Introduction to Thermography Cameras, Thermometeres and Temperature Measurement Introduction to Lubrication Introduction to Motor Diagnostics Introduction to Laser based Measurement Systems Pulley and Shaft Alignment Practical demonstration of shaft alignment using laser based measurement systems. Industries that will benefit Cement Chemical Food and Beverage Manufacturing Maintenance Contractors Mineral Processing Mining Motor Rewinders Municipal Utilities Oil and Gas Petrochemical Pharmaceutical Power Generation Printing Pulp and Paper Steel Pump Manufacturers Timber Who Should Attend Application Engineer, Condition Monitoring Engineer/Technician, Electrical Engineer/Fitter/ Manager/Supervisor/Technician, Engineering Draftsman/Manager/Supervisor, Mechanical Maintenance Engineer/Manager/Supervisor/ Technician/Fitter/Lubrication Fitter, Operations Manager/Supervisor, Planning Manager, Quality Engineer, Reliability Engineer/Manager/ Supervisor, Store Supervisor. Pre-Study E-Learning courses WI100 Vibration Basics WE140 Shaft Alignment Basics Reading material Introduction Guide to Vibration Monitoring Post-Study E-Learning courses WI130 Thermography basics Reading material Vibration Principles Recommended initial alarm criteria for bearing condition assessment Time 8.30am 4.30pm 2 days Course Fee $1,475 AUD + GST Onsite & Public Work Execution Course fee is per person for a Public course. Contact SKF for Onsite course fee. Refer to Enrolment Form on page 125. pp ic ti n Specific Living Program Motor System Reliability Product & Software SKF Handbook 67

WI202 Vibration Analysis - The Entry Level I course is intended for personnel who are new to vibration monitoring and analysis. This is the ideal starting place for new vibration analysts, people collecting vibration data and those who want a better understanding of vibration analysis and condition monitoring. Also Available: Vibration Analysis (pg. 94) Vibration Analysis (pg. 102) SmartStart Microlog Product (pg. 120) Course Content The course focuses on periodic, single channel data collection and analysis for condition based maintenance programmes. A foundation is established for in- depth understanding of spectrum and waveform relationships. Maintenance practices Breakdown, preventive, predictive and RCM Condition monitoring Review of condition monitoring technologies: Vibration, oil, wear debris analysis, infrared thermography, ultrasonic acoustic emission, electric motor testing Principles of vibration Motion, r.m.s./peak/peak-peak, frequency/ period Displacement, velocity and acceleration Units and unit conversion Waveform and spectrum (FFT) Natural frequencies Basic forcing frequency calculations Data acquisition Instrumentation Transducers and transducer mounting Measurement point naming conventions Routes/surveys: Loading and unloading the route Data collection - Following a route - Repeatable data collection - Test procedures - Observations: utilising your time effectively in the field - Recognising bad data Equipment knowledge Rotating equipment types and applications Rolling element bearings and journal bearings Review of failure modes and appropriate use of condition monitoring technologies Basic vibration analysis Overall level measurements Spectrum analysis: - Harmonics, sidebands and the analysis process - Alarm limits, trending and exception reports Fault diagnosis - Imbalance, misalignment, looseness, eccentricity, resonance - Defects associated with bearings, gears, belts, electric motors Key Learning Outcomes You will come away from this course with a solid understanding of: Benefits of perfoming condition monitoring and improving reliability Condition Monitoring Technologies: acoustic emission, infrared thermography, oil analysis, wear debris analysis, electric motor testing How machines work via supplementary selfstudy using the Equipment Knowledge section Why vibration measurements can tell you about the condition of the machine How to collect good, repeatable measurements How to analyse vibration spectra, and the basics of fault diagnosis: unbalance, misalignment, looseness, rolling element bearings faults, resonance, and other conditions. Introduction to setting alarm limits CONTINUES NEXT PAGE SKF Handbook 68

Introduction to Solutions Vibration Analysis - (cont.) E-Learning Get Certified! Short Courses Industry Specific The training course strictly follows ISO 18436-2 and 18436-3. The optional Certification Exam is provided by Mobius Institute Board of Certification, which is ISO/IEC 17024 accredited in accordance with ISO 18436-1 and ISO 18436-2. Students who meet the experience requirements, complete the course and pass the examination will become certified according to ISO 18436-1 and ISO 18436-2, providing the highest recognised certification available anywhere. pp ic ti n Specific Who Should Attend If you have been performing vibration analysis for less then one year, or if you have been collecting vibration readings and leaving analysis to another person, then this is course is for you. This course is also designed for reliability engineers, PdM program managers, and other maintenance staff who would like to understand condition monitoring with a focus on vibration analysis. Time 8.00am 4.30pm 3 days + half day exam Course Fee $2,280 AUD + GST Exam Fee $300 AUD + GST Onsite & Public Work Identification Certification* Vibration Analyst 1 Course fee is per person for a Public course. Contact SKF for Onsite course fee. Refer to Enrolment Form on page 125. Living Program Motor System Reliability Product & Software SKF Handbook 69

WI240 Machinery Lubrication and Oil Analysis - Also Available: Machinery Lubrication and Oil Analysis (pg. 96) SKF Handbook 70 This course establishes the role of precision lubrication and oil analysis for improving machine reliability. The course will provide an overview of lubricant construction and the general principles involved in lubricant selection for common plant machinery. It will introduce appropriate methods to collect samples as the first step in lubricant based machine condition assessment. Course Objectives Acquire the knowledge necessary to understand the important lubricant properties and how to select the correct lubricant for each machine application. Learn how to read and understand oil analysis reports, set optimum oil analysis limits, reduce oil consumption and achieve maximum life out of lubricants. Course Content Maintenance Strategies Best Practice Structuring Understanding maintenance strategies reactive, preventative, predictive, proactive & optimising Why machines fail prematurely understanding root causes The role of effective lubrication in failure avoidance Oil analysis and technologies to assure lubrication effectiveness Contamination Mechanics A Proactive Lubrication Approach to Reliability Proactive lubrication and contamination control lubricant storage and use, contamination exclusion, removal and measurement Phase (1) Setting goal based target limits Phase (2) Employing actions and equipment to achieve goal based target limits Phase (3) Measurement of results and achieving goal based target limits Lubricant Application Basic calculations for determining required lubricant volume Basic calculations to determine re-lube and change frequencies When to select oil and when to select grease Effective use of manual delivery techniques o Automatic delivery systems - Automated deliver options - Automated grease systems - Oil mist systems - Drip and wick lubricators o Deciding when to employ automated lubricators o Automated lubrication systems Lubricant Storage and Management Lubricant receiving procedures Proper storage and inventory management Equipment tagging and identification Lubricant storage containers Lubricant routes and scheduling Proper storage of grease-guns and other lube application devices Maintenance of automatic grease systems Health and safety assurance Lubricant Conditioning and Quality Control Filtration and separation technologies Filter rating Filtration system design and filter selection Basic Grease Lubrication and Properties How grease is made Thickener types Thickener compatibility Grease lubricant physical, chemical and performance properties and classifications Costs and Benefits of Lubrication What Others Have Achieved Reliability and asset tools Cost benefit analysis and return on investment calculations Case studies proactive lubrication management and financial savings Lubrication Theory & Fundamentals Fundamentals of tribology Functions of a lubricant Hydrodynamic lubrication (sliding friction) Elasto-hydrodynamic lubrication (rolling friction) Mixed-film lubrication Base-oils and their functions CONTINUES NEXT PAGE

Machinery Lubrication and Oil Analysis - (cont.) Oil lubricant physical, chemical and performance properties and classifications Lubrication Selection & Application Basics Viscosity selection Base-oil type selection Additive system selection Machine specific lubricant requirements - Hydraulic systems - Rolling element bearings - Journal bearings - Reciprocating engines - Gearing and gearboxes Application and environment related adjustments Functions of a lubricant Oil Sampling Objectives for lube oil sampling Samping methods Managing interference - Bottle cleanliness and management - Flushing - Machine conditions appropriate for sampling Lubricant health monitoring Lubricant failure mechanisms o Oxidative degradation - The oxidation process - Causes of oxidation - Effects of oxidative degradation o Thermal degradation - The thermal failure process - Causes of thermal failure - Effects of thermal degradation o Additive depletion/degradation - Additive depletion mechanisms - Additives at risk for depletion/degradation by the various mechanisms Testing for wrong or mixed lubricants o Baselining physical & chemical properties tests o Additive discrepancies Fluid properties test methods and measurement units - applications and limitations o Kinematic Viscosity (ASTM D445) o Absolute (Dynamic) Viscosity (ASTM D2893) o Viscosity Index (ASTM D2270) o Acid Number (ASTM D974 et al) o Base Number (ASTM D974 et al) o Fourier Transform Infrared (FTIR) Analysis o Rotating Pressure Vessel Oxidation Test (ASTMD2272) o Atomic Emission Spectroscopy Monitoring and Analysis Common machine wear mechanisms Interpreting machine wear debris Get Certified! The International Council for Machinery Lubrication (ICML) will be conducting Machinery Lubrication exams, the morning following each course.* * Please confirm with SKF prior to the course Pre-Study E-Learning courses WI140 Lubrication Analysis Basics Reading material Lubricant Monitoring and Analysis Oil and water Post-Study Reading material Lubrication and contamination effects on bearing life Part 1 Lubrication and contamination effects on bearing life Part 2 An introduction to oil debris analysis Time 7.30am 4.30pm 3 days + half day exam Course Fee $2,280 AUD + GST Exam Fee $275 AUD + GST Onsite & Public Work Identification Certification Lubricant Analyst 1 Lubrication Technician 1 Course fee is per person for a Public course. Contact SKF for Onsite course fee. Refer to Enrolment Form on page 125. Examination fee can be arranged directly with ICML for $275 USD per person by visiting www.icmlonline.com/apply Introduction to Solutions E-Learning Short Courses Industry Specific pp ic ti n Specific Living Program Motor System Reliability Product & Software SKF Handbook 71

WI230 Infrared Thermography - This course covers infrared theory, heat transfer concepts, equipment operation and selection, standards compliance, image analysis and report generation. Also Available: IR Thermography Analysis (pg. 93) IR Thermography Analysis (pg. 104) Specific applications include electrical distribution systems, mechanical systems, steam systems, refractory systems, underground piping, active thermography, building envelopes and flat roofs. Key Learning Outcomes On completion of the course students will be able to identify and document thermal patterns caused by improper design, workmanship for failure. Course Content Basic Infrared Theory Heat transfer Electromagnetic spectrum Emittance, reflectance, and transmittance Atmospheric transmission IR wavebands and lens materials Infrared Equipment Selection criteria Range and level settings Class demonstrations Hands-on use in class Infrared Electrical System Inspections Theory and thermal signatures of problems Seven types of detectable defects Conducting an inspection Safety practices Confirming exceptions Data recording Standards for inspections Infrared Mechanical System Inspections Theory and thermal signatures of problems Rotating equipment Power transmission components High temperature insulation Steam systems, process equipment, heat exchangers, storage vessels Active thermographic inspection techniques Safety practices Confirming exceptions Data recording Standards for inspections Infrared Roof Inspections Theory and component construction Insulation and material characteristics Inspection techniques ground based / aerial Weather variables and influences Required site conditions Safety practices Thermal signature of latest moisture Verification of data Data recording Alternate methods of moisture detection Standards for inspections Infrared Building Inspections Theory and component construction Insulation and material characteristics Inspection techniques interior / exterior Weather variables and influences Required site conditions creating sufficient Delta T Thermal signatures - missing and damages insulation - air leakage - latent moisture - pest damage Mould detection Other tools Verification of data Data recording Standards for inspections SKF Handbook 72 CONTINUES NEXT PAGE

Infrared Thermography - (cont.) Introduction to Solutions E-Learning Course Content (cont.) Implementing an IR Predictive Maintenance Program Nine steps to setting up a program Integrating with other predictive technologies Cross-verifying with other predictive technologies Why programs fail, how they succeed Generating standards compliant reports Who Should Attend Certified Infrared Thermography Course is designed for the application of qualitative thermal imaging for Predictive Maintenance, Condition Assessment, Condition Monitoring, Quality Assurance, Forensic Investigations, and Building Sciences. Get Certified! Infraspection Institute This program is compliant with international standards organisations ISO-18436 and ASNT SNT-TC-1A. This course is also approved by the International Association of Certified Home Inspectors and meets the training requirements for their Infrared Certified professional designation and logo. Time Course Fee Exam Fee* Certification* 8.00am 5:30pm 5 days (including exam) $2,995 AUD + GST Included Onsite & Public Work Identification Infraspection Institute Certified Infrared Thermographer Course fee is per person for a Public course. Contact SKF for Onsite course fee. Refer to Enrolment Form on page 125. * This course and examination can qualify you for the certification in accordance with ASNT SNT-TC-1A. Flexible Learning option is available Please contact SKF for more details. Short Courses Industry Specific pp ic ti n Specific Living Program Motor System Reliability Product & Software SKF Handbook 73

Airborne Ultrasound - This course covers theory and principles of ultrasound, equipment operation and selection, standards compliance, data acquisition and report generation, as well as principles of reliability and condition monitoring. Specific Applications include: electrical distribution systems, mechanical systems, bearing lubrication, air and steam system efficiency, hydraulic systems. SKF Handbook 74 Course Content Principles of ultrasound Basics of sound Sound wave motion Acoustic impedance and its influence on propagation and attenuation Inverse distance law How friction, turbulence, and impacting produce ultrasound and where they apply Understanding the properties of the decibel Generic equipment knowledge Instrument operation and function Airborne sensors Structure-borne sensors Heterodyne principle and application Sensitivity validation Data acquisition in ultrasound Principles of data acquisition Sensor positioning Competing ultrasound and shielding techniques Measurement of ultrasound Capturing time domain and spectrum signals for analysis Data storage and management Developing and using a database Managing stored data Condition monitoring principles What is condition monitoring? Why is it useful? What other technologies are there? Why and when would ultrasound be useful? Acceptance testing Applications to machine systems Leak Detection - Turbulence and flow - Directionality - Measurement precautions - Pressurised gases and compressed air - Vacuum - Tightness testing using the ultrasonic tone method Valve inspection to identify: - Blocked - Passing - Cavitating Steam Traps - Using ultrasound - Combination with temperature - Reporting techniques Electrical Inspection - Corona, tracking, and arcing - Internal partial discharge - Safety concerns Hydraulic systems inspection - Cylinders, valves, and pumps On-condition bearing lubrication - Trending values - Ultrasonic lubrication process considerations - Under and over-lubricated bearings - Bearing defect detection - Slow speed bearing inspection - Gearing inspection - Pump inspection - cavitation - Motor inspection and the effect of variable speed drives Severity determination Trending decibels Time signal analysis Spectrum analysis Case studies Program implementation Routine inspection considerations Routine management Reporting and corrective action Key information needed Tracking corrective action outcome Personal safety Get Certified! This program is compliant with International Standards Organizations ISO-18436 and ASNT SNT-TC-1A. Time 8.00am 5.00pm 5 days Course Fee $2,795 AUD + GST Onsite & Public Work Identification Course fee is per person for a Public course. Contact SKF for Onsite course fee. Refer to Enrolment Form on page 125.

WI320 Ultrasonic Testing - Ultrasonic Testing (UT) uses high frequency sound waves to detect imperfections or changes in properties within materials - and can be used for flaw detection/evaluation, dimensional measurements/thickness determination, material characterisation, inspection of castings, forgings, welds, aerospace, a variety of metallic and non-metallic materials, and more. Introduction to Solutions E-Learning Short Courses Partner SKF in collaboration with Advanced Technology Testing and Research (ATTAR) delivers Ultrasonic Testing, Non Destructive Testing (NDT) training Course Deliverables In-depth lessons and sectional quizzes integrating theory and application Ample opportunities for practical, hands-on experience Valuable interaction with trainers who possess the knowledge and industry experience to give direction to any NDT program Access to a wide variety of specialised and proprietary NDT training aids such as visualisation tools, calculators, simulators and assessment tools Course Content This course discusses the following key technical topics. Basic principles Equipment testing methods Calibration Angle beam examination Evaluation of base material product forms Thickness determination Basic discontinuity detection Evaluation Reporting Industries that will benefit Petrochemical Food and Beverage Mining Power Generation Cement Municipal Utilities Steel Motor Rewinders Timber Mineral Processing Printing Maintenance Contractors Pulp and Paper Pump Manufacturers Oil and Gas Chemical Pharmaceutical Manufacturing Get Certified! International standard ISO9712, adopted in Australia as AS 3998, specifies the training, assessment and experience requirements for the qualification and certification of NDT personnel. As a Registered Organisation and Authorised Qualifying Body for the Australian Institute of Non Destructive Testing (AINDT), ATTAR's training course is the pathway to qualification and / or certification. Students have the option of sitting a exam, which consists of two theory (general and specific), and one practical exam, a requirement for certification under ISO9712. NDT certification requirements include vision testing, training, assessment (examination by an Authorised Qualifying Body) and experience; certification is awarded by AINDT. To qualify for AINDT Certification all requirements are to be met. Pre-requisite Basic math skills including Algebra. For further details visit www.attar.com.au Time 7.30am 3.30pm 5 days (including exam) Course Fee POA Exam Fee Included Onsite Certification AS 3998 /ISO9712 Ultrasonic Testing Refer to Enrolment Form on page 125. Industry Specific pp ic ti n Specific Living Program Motor System Reliability Product & Software SKF Handbook 75

WC200 Maintenance Planning and Scheduling - Planning and scheduling is one of the most important activities to increase the efficiency in a maintenance organisation and to reach Maintenance in World Class. Surveys show that planning increases the productivity of work performance by as much as 77%. The service technician needs to communicate and cooperate in the right way with schedulers, work management, and production/operations. This requires a clear and communicated work process among the personnel involved, and not least, knowledge and skills necessary for planning and scheduling of maintenance job plans. Course Content The objective of this training is to give the basic principles for planning and scheduling of maintenance work. The participants will understand the necessity of planned work and its effect on interest groups and on maintenance measurements. Course Topics The course contains the following topics: Roles and responsibilities Work flow Error notification Prioritising of work orders Planning Theory The process Standard work Planning and reservation of material Scheduling Theory The process Handling of backlog Efficient planning and scheduling meetings Shutdown planning Improvements Follow up and key performance indicators (KPIs) Key Learning Outcomes After completing the course, participants will be able to: Understand the importance and impact of Planning and Scheduling Learn and apply Planning and Scheduling principles and methodology Derive Planning and Scheduling work flow models Understand planning roles and relationships Understand the benefits of performance measurement Understand the components of a data driven maintenance job plan Understand when to create a maintenance job plan Demonstrate the knowledge and skills necessary to write a data driven maintenance job plan Who Should Attend Personnel from Production/Operations and Maintenance/Planners and Schedulers and Personnel responsible for Spare Parts Pre-Study E-Learning courses WC130 Spare Parts Management Reading material Spare Parts Management Inventory Management Post-Study Reading material Calculating Wrench Time Maintenance Planning and Scheduling Fundamentals Planning, Scheduling, and Work Orders Time Course Fee 8.30am 4.30pm 2 day $1,475 AUD + GST Onsite & Public Work Control Course fee is per person for a Public course. Contact SKF for Onsite course fee. Refer to Enrolment Form on page 125. SKF Handbook 76

WC230 Spare Parts Management and Inventory Control - In a maintenance repair and operating (MRO) environment, spares and inventory management refer to those activities in an organisation that ensure at any time the optimal and timely availability of spare parts in order to meet maintenance demands. In today s competitive environment, it is important that the management and optimisation of spares inventory is always considered in the context of supporting the maintenance function to meet its operational and business goals. Simply reducing inventory is not enough. Ideally, the aim must be to maintain sufficient inventory and no more such that production is never impacted by stock-outs whilst keeping inventory costs to a minimum. In this way, inventory management and optimisation add real value to any business. Introduction to Solutions E-Learning Short Courses Industry Specific pp ic ti n Specific Course Objective The course objectives are to provide participants with a sound knowledge and understanding of: Spare parts and inventory management processes and principles Basic spare parts and inventory management terminology The importance and relations of spare parts and inventory management with respect to business goals Identifying, structure, and classifying spare parts on their criticality, (re)order parameters, and other spare parts characteristics Applying basic analysis techniques to optimise the availability of spares and cost-effectively handle obsolete spares Key institutes and reference material on spare parts and inventory management Course Content SKF spare part management and inventory optimisation training has been developed to support SKF customers (industrial end-users), improving their bottom line results. This course will consist of the following modules: Module 0: Introduction Module 1: Spare parts management (SPM) Module 2: Maintenance and spare parts strategy Module 3: MRO inventory management Module 3-A: MRO inventory management Basics Module 3-B: MRO inventory management work processes and CMMS Module 4: Obsolete management Case studies The purpose of the case studies is to provide participants with an opportunity to apply the gained knowledge and understanding in practice. Who Should Attend Engineers, Supervisors and Managers from the following functions: Inventory control, purchasing, reliability and maintenance engineering, logistic support, quality, production and warehouse management Pre-Study E-Learning courses WC130 Spare Parts Management Reading material Spare Parts Management Inventory Management Post-Study Reading material Planning, scheduling and work orders Tools management Supply chain management Time Course Fee 8.30am 4.30pm 2 day $1,475 AUD + GST Onsite & Public Work Control Course fee is per person for a Public course. Contact SKF for Onsite course fee. Refer to Enrolment Form on page 125. Living Program Motor System Reliability Product & Software SKF Handbook 77

WE241 Precision Maintenance Skills - This course will teach the mechanic an understanding of the precision and proactive practices necessary to maintain a machine to the highest possible level. Students will learn techniques that aid in the assembly and setup of machinery that provide measurable improvements in machine performance as measured with basic vibration readings. Students will also understand the current trends in maintenance methodologies, and how precision and proactive approaches and their direct interaction with machinery fit into an overall reliability program. Course Content Overview of Proactive and Maintenance Proactive maintenance as part of an overall maintenance strategy Relationship between failures and their sources Impact of maintenance practices on machinery Fundamentals of Machine Condition Vibration as an indicator of machine health and an indicator of precision Introduction to condition monitoring terminology and technologies Indications of machinery health problems Basic vibration measurements Relationship between the components in the machine and vibration frequencies Fault diagnosis Machinery Troubleshooting Machinery troubleshooting process Identification of the true root cause cause and effect relationships Analysis techniques Resonance troubleshooting Precision Shaft Alignment Need for precision Misdiagnosis and thermal growth correction Types of misalignment Alignment tolerances Precision versus manufacturer s and industry specifications The different alignment methods advantages, disadvantages Misalignment effects on bearing loads, seals and motor load Improving Rotor Balance through Precision Assembly Troubleshooting and analysis techniques Practical methods with basic instruments Examples of advanced techniques used by analysts Proactive and precision tolerances The effects of assembly on rotor balance Belt-Driven Machinery Identification of common belt drive configurations Troubleshooting techniques Practical assembly methods with basic instruments Examples of advanced techniques used by analysts Belt failure modes root cause analysis Pre-alignment / belt installation and inspection Maximising Roller Bearing Life Introduction to proactive bearing installation Failure detection methods Basic seal types - installation & lubrication Progression of typical bearing failures Practical inspection methods with basic instrumentation Advanced methods used by vibration analysts Bearing, shaft and housing tolerances and fits Relationship of tolerance, clearance, and bearing precision Functions of lubrication Lip and Mechanical Seals Maximising life Controlling and positioning of shafts SKF Handbook 78

Precision Maintenance Skills - (cont.) Who Should Attend Condition Monitoring Engineer/Technician, Electrical Manager/Supervisor, Engineering Manager/Supervisor, Mechanical Maintenance Engineer/Manager/Supervisor, Operations Manager/Supervisor, Quality Engineer, Reliability Engineer/Supervisor/Manager. Industries that will benefit Food and Beverage Mining Cement Steel Mineral Processing Printing Pulp and Paper Oil and Gas Pharmaceutical Manufacturing Petrochemical Power Generation Municipal Utilities Motor Rewinders Maintenance Contractors Timber Pump Manufacturers Chemical Pre-Study E-Learning courses WI100 Vibration Basics WE140 Shaft Alignment Basics WE150 Balancing Basics WE170 Basics of Seals for Rotating Motion Reading material Shaft couplings Machinery mounting Post-Study E-Learning courses MS100 Proactive reliability maintenance MS100 AEO basics MS101 Assessment basics MS130 Maintenance Strategy Review Reading material GS04007 Belt alignment RB02023 Roller chain drives Introduction to Solutions E-Learning Short Courses Industry Specific pp ic ti n Specific Living Program Motor System Reliability Product & Software Time Course Fee 8.30am 4.30pm 3 days $1,675 AUD + GST Onsite & Public Work Execution Course fee is per person for a Public course. Contact SKF for Onsite course fee. Refer to Enrolment Form on page 125. SKF Handbook 79

WE201 Bearing Technology and Maintenance - Also Available: Root Cause Bearing Damage Analysis (pg. 98) Learn world s best practice in bearing applications, principles of mounting and dismounting from engineers using the correct fitting & removal tools and techniques including clearance reduction, axial drive up, hydraulic nut withdrawal sleeve and oil injection methods. SKF has aligned this course to the National Metal & Engineering Competency Standards Unit MEM18005B and deliver this course under the auspice of TAFE SA in Australia. Course Content Basics of Bearings and Their Applications Rolling bearing theory Anti-friction bearing types and applications Plain bearing types and applications Meaning of L 10 Life and Service Life Application of fits and tolerances Fundamentals of Lubrication How bearing lubrication works The importance of selecting the proper lubricant for an application Maximise bearing life through understanding of proper lubricating principles and functions How much and how often to lubricate rolling bearings Seal Types and Application Contact seals, Non-contact seals Housing seal types Principles of Mounting and Dismounting Bearings Cylindrical seating Tapered seating Adapter and withdrawal sleeves Cold and hot mounting and dismounting Mounting and dismounting using oil injection Principles of mounting plain bearings Introduction to Bearing Failures and Their Causes Identify and interpret actual bearing failures Practical Mounting and Dismounting of Bearings Preparation for mounting and dismounting Checking the components Mounting and dismounting tools Hands on exercises Target Audience Maintenance Technicians - understand how to fit and remove bearings using the correct tools and techniques, lubrication & cleanliness, bearing storage & handling Reliability & Engineering - selection of the right bearing, lubricant and sealing arrangements for specific applications, appropriate dimension and for housings and shaft, incorporate appropriate bearing mounting and dismounting requirements into the design and work instructions. Pre-Study E-Learning courses GRB001 Bearing Basics GRB006 Deep Grove Ball Bearings Reading material Bearing Basics Post-Study Reading material Bearing Dismounting Methods Tips for Bearing Mounting Proper bearing handling and storage Time Course Fee TAFE Accreditation Fee Competency 8.30am 4.30pm 3 days $1675 AUD (GST Exempt) $125 AUD (GST Exempt) Onsite & Public Work Execution Maintenance and Diagnostics TAFE Accreditation Australia - MEM18005B* Course fee is per person for a Public course. Contact SKF for Onsite course fee. Refer to Enrolment Form on page 125. * Students also require to provide a Statement of Completion of Prerequisite Units to MEM18005B SKF Handbook 80

WE203 Introduction to Lubrication and Contamination Control This course is designed to help students attain a solid start in lubrication, contamination control and how to look after machinery generally. This introductory course will focus on the fundamentals of lubrication, lubricant types, lubricant selection, consequences of incorrect selection, and storage, handling & cleanliness. This course is delivered with an emphasis on a practical understanding of a proactive approach to lubrication & contamination management. Introduction to Solutions E-Learning Short Courses Industry Specific Course Content Maintenance Strategies Best Practice Structuring Understanding maintenance strategies reactive, preventative, predictive, proactive & optimising Why machines fail prematurely understanding root causes The role of effective lubrication in failure avoidance Oil analysis and technologies to assure lubrication effectiveness Contamination Mechanics A Proactive Lubrication Approach to Reliability Proactive lubrication and contamination control lubricant storage and use, contamination exclusion, removal and measurement Phase (1) Setting goal based target limits Phase (2) Employing actions and equipment to achieve goal based target limits Phase (3) Measurement of results and achieving goal based target limits Lubricant Application Basic calculations for determining required lubricant volume Basic calculations to determine re-lube and change frequencies When to select oil and when to select grease Effective use of manual delivery techniques Automatic delivery systems - Automated deliver options - Automated grease systems - Oil mist systems - Drip and wick lubricators Deciding when to employ automated lubricators Maintenance of automated lubrication systems Lubricant Storage and Management Lubricant receiving procedures Proper storage and inventory management Equipment tagging and identification Lubricant storage containers Lubricant routes and scheduling Proper storage of grease-guns and other lube application devices Maintenance of automatic grease systems Health and safety assurance Lubricant Conditioning and Quality Control Filtration and separation technologies Filter rating Filtration system design and filter selection Basic Grease Lubrication and Properties How grease is made Thickener types Thickener compatibility Grease lubricant physical, chemical and performance properties and classifications Note: On completion of this (1) day course, students may choose to continue with the remaining (2) days of training and sit the ICML MLT-1 or MLA-1 Certification Exam. Or, you may return at a later date to complete the final (2) days of training required for ICML Certification. Pre-Study E-Learning courses GRL001 Lubrication Basics WI140 Lubrication Analysis Basics Reading material Lubrication management Post-Study E-Learning courses WE170 Basics of Seals for Rotating Motion Reading material Lubricant Monitoring and Analysis Grease life in lubricated-for-life deep groove ball bearings Time Course Fee 7.30am 4.30pm 1 day $1,025 AUD + GST Onsite & Public Work Execution Course fee is per person for a Public course. Contact SKF for Onsite course fee. Refer to Enrolment Form on page 125. pp ic ti n Specific Living Program Motor System Reliability Product & Software SKF Handbook 81

WE270 Sealing Solutions Technology Seals for Rotary Applications - This course is designed to develop knowledge in industrial sealing products for rotary motion, application fundamentals and competence in devising effective sealing solutions. The information and training will enable students to understand the concepts and application of sealing solutions to achieve optimum seal, bearing and equipment performance. This comprehensive course uses a combination of hands-on training, visual theory knowledge, case study participation and discussion opportunities. SKF Handbook 82 Course Objective To provide the participants with the fundamentals of lip seals, principles of sealing operations, elastomeric materials and their properties, and the effects of operating parameters in seal performance To have an understanding of the various seal designs, their applications and seal design development trends To learn a systematic approach to Sealing System Failure Analysis, most common failure modes; includes participation in actual case studies To provide an overview of common rotary sealing components used in various industrial applications and a guide to sealing system designs in heavy industry segments To learn appropriate handling and installation procedures, methods, tools and parameters; includes a workshop environment for hands-on experience To provide an overview of other sealing systems and services including SKF custom sealing solutions Course Content Introduction General industrial and catalogue shaft seals Design features machined rotary seals Radial Lip Shaft Seals Radial lip shaft seals Choosing an elastomer material Design Requirements for other components Shaft and bore recommendations Failure Analysis Seal failure modes Failure analysis methods Application troubleshooting Installation Procedures Basic handling and installation procedures theory Hands-on seal installation practice Specific market segment applications and case studies Who Should Attend Machinery Designers, Mechanical Draftspersons, Reliability Engineers, Maintenance Engineers and Technicians, Consultants Pre-Study Industrial Seals Self Study Guide (supplied on request after enrolment). Time Course Fee 8.30am 4.30pm 1 day $1,025 AUD + GST Onsite & Public Work Execution Course fee is per person for a Public course. Contact SKF for Onsite course fee. Refer to Enrolment Form on page 125.

WE240 Precision Shaft - Laser Alignment - This course focuses on steps and procedures required to obtain a precision alignment, use of precision alignment tools, and documentation and reporting procedures. Students will have a good knowledge of measurement and alignment techniques and independently be able to perform measurements and alignments with laser based systems. Introduction to Solutions E-Learning Short Courses Industry Specific Course Content Up to 50% of this course consists of guided hands-on activities. It is suggested that participants bring their instruments to the course Overview Review of shaft alignment fundamentals Advantages, disadvantages and sources of error associated with various alignment methods Describing and documenting shaft offset and angular misalignment condition Pre-alignment procedures Review the three major phases of alignment Review of dial indicator alignment methods Laser alignment systems overview Fundamental horizontal machine alignment processes Setting up the laser system Measuring and entering the dimensions Obtaining measurements Interpreting results Making moves/adjustments Alignment completion Dealing with alignment challenges Base-bound and bolt-bound conditions Dynamic movement Identify general types of soft foot and how to detect and correct soft foot conditions Effects of thermal growth on the alignment process and machine operation Industries that will benefit Food and Beverage Cement Timber Pulp and Paper Pharmaceutical Manufacturing Oil and Gas Municipal Utilities Motor Rewinders Mining Steel Mineral Processing Chemical Printing Petrochemical Power Generation Pump Manufacturers Maintenance Contractors Who Should Attend Maintenance, engineering, technical support and management personnel whose job functions involve alignment of rotating machinery Appropriate for those who align machines and those who detect, investigate and resolve premature machinery failure due to misalignment Those who direct activities relative to alignment and machine reliability Pre-Study E-Learning courses WE140 Shaft Alignment Basics Reading material Machinery mounting Belt Alignment Chapter 6 SKF Bearing Maintenance Handbook Post-Study Reading material Fans - work execution Providing a good foundation for machines Shaft couplings Time Course Fee 8.30am 4.30pm 1 day $1,025 AUD + GST Onsite & Public Work Execution Course fee is per person for a Public course. Contact SKF for Onsite course fee. Refer to Enrolment Form on page 125. pp ic ti n Specific Living Program Motor System Reliability Product & Software SKF Handbook 83

WE250 Dynamic Balancing - This course delivers hands-on balancing exercises, using demo rotor kits and instruments using optical, laser and strobe light accessories for phase reference. Proper vibration analysis techniques are reviewed to differentiate imbalance from other problems such as misalignment and resonance. Course features case histories to illustrate single plane (static), two-plane (dynamic) and the static and couple approach to balancing rotors of all types. Key Learning Outcomes At the end of this course, students will be able to determine the most appropriate procedure to be applied to selected balancing situations, identify the main causes of unbalanced equipment, and understand the procedures for operating the balancing equipment. Course Objectives Understanding principles of balancing Selecting the most appropriate procedure to be applied to selected balancing situations Understanding procedures for setting up the component to be balanced Understanding procedures for operating the balancing equipment Understanding procedures for recording out of balance readings Learn methods of rigid and flexible rotation balancing Understanding the techniques of single and multiple plane balancing Learn the appropriate balancing technique for given balancing situations Learn procedures for balancing out of balance equipment Course Content Check balance Principles of equipment balance testing are understood Most appropriate balancing check procedure is selected Component is set up correctly and to site/ manufacturer s procedure for balance check Balance/out of balance is determined and compared to specification requirements Out of balance readings are recorded to prescribed procedures Balance equipment Principles and methods of rigid and/or flexible rotation balancing are understood Techniques of single and/or multiplane balancing are used appropriate to application Equipment is balanced utilising correct procedures Practical methods with basic instruments Examples of advanced techniques used by analysts Proactive and precision tolerances The effects of assembly on rotor balance Who Should Attend Application Engineer, Condition Monitoring Engineer/Technician, Electrical Engineer/Fitter/ Manager/Supervisor/Technician, Engineering Draftsman/Manager/Supervisor, Mechanical Maintenance Engineer/Manager/Supervisor/ Technician/Fitter/Lubrication Fitter, Operations Manager/Supervisor, Planning Manager, Quality Engineer, Reliability Engineer/Manager/ Supervisor, Store Supervisor. Industries that will benefit Cement Chemical Food and Beverage Manufacturing Mineral Processing Mining Motor Rewinders Municipal Utilities Petrochemical Pharmaceutical Power Generation Printing Pulp and Paper Oil and Gas Steel Timber Pre-Study E-Learning courses GRB001 Bearing Basics WE150 Balancing Basics Reading material Balancing Post-Study E-Learning courses WE140 Shaft alignment basics Reading material Precision balancing Machinery mounting Time Course Fee 8.30am 4.30pm 1 day $1,025 AUD + GST Onsite & Public Work Execution Course fee is per person for a Public course. Contact SKF for Onsite course fee. Refer to Enrolment Form on page 125. SKF Handbook 84

WE290 Power Transmission Application, Assembly and Maintenance Power Transmission components are vital elements in a rotating machinery system and require the same attention to detail as bearings and seals to achieve optimum life. Aspects of power transmission reliability include inspection, monitoring, correct assembly, and system optimisation to achieve maximum life. This course shows the way to assemble and maintain power transmission components: belts, chains, and couplings. Introduction to Solutions E-Learning Short Courses Industry Specific pp ic ti n Specific Course Objective Learn the operating principles of a range of mechanical drives and transmissions Understand techniques, tools and equipment to measure components Learn to recognise common malfunctions in mechanical drives, transmissions and their components Learn procedures for installing, checking and adjusting mechanical drives Learn preventive and proactive measures that can be undertaken to avoid recurrence of the fault/ failure Undertake appropriate testing and diagnoses of power transmission systems Course Content This course will focus on the installation, maintenance, troubleshooting and repair of the most common types of Power Transmission components: Belts, Chains & Couplings. Principles & functions of mechanical drives and mechanical transmission components Install and adjust mechanical drives and transmission assemblies Use of appropriate maintenance principles, techniques, tools and equipment to ensure drives/transmission components are tensioned, aligned, balanced and/or adjusted to manufacturers and/or site specifications Fault Diagnosis and preventative measures to avoid re-occurrence Repair & Troubleshoot mechanical drives/ transmission assemblies Who Should Attend Machinery Designers, Mechanical Draftspersons, Reliability Engineers, Maintenance Engineers and Technicians, Consultants Pre-Study E-Learning courses WE140 Shaft Alignment Basics WE150 Balancing Basics Reading material Shaft couplings Post-Study Reading material Roller chain drives Clutches Industrial brakes Time Course Fee 8.30am 4.30pm 1 day $1,025 AUD + GST Onsite & Public Work Execution Course fee is per person for a Public course. Contact SKF for Onsite course fee. Refer to Enrolment Form on page 125. Living Program Motor System Reliability Product & Software SKF Handbook 85

WE247 Operator Asset Care Operator Asset Care is considered an integral element of a plant s Total Plant Reliability strategy. This training course will teach the machine operator to perform day to day tasks of basic maintenance and fault finding, such that the operator can help prevent and/or predict potential problems, addressing them before they can impact production. And by doing so, decrease downtime and increase plant productivity. NEW Course Objective Make participants familiar with the main transmission systems Allow them to understand what accelerates the deterioration of transmission system, and leads to system failures. To teach participants about the primary inspections carried out to identify abnormalities and prevent transmission system failures. Key Learning Outcomes Understand what problems to detect and the tools required to detect these problems. Basic understanding of transmission systems and components What/why/how to inspect a transmission system and perform simple maintenance tasks Positive long-term impact on safety and environmental performance. Who Should Attend Operations, Maintenance and Lubrication staff responsible to physically inspect and verify the operating condition of work areas, processes, and plant assets Course Content Introduction to Transmission Systems What is a transmission system? Safety elements Control elements Mechanical elements Inspection sheets Bearings Scope of bearings and how bearings look Recognise main bearing type How bearings get damaged Importance of proper lubrication Importance of keeping cleanliness mportance of proper installation Bearing Failures Detection -> Inspection How housings look like Importance of proper fastening Inspect Housings Couplings Scope of couplings and how couplings look Recognise main coupling types Importance of shaft misalignment Coupling failure -> Inspection Gears/Gearboxes Scope of gearboxes and how they look How gears get damaged Importance of lubrication & cleanliness Gearbox failures detection -> Inspection Belts/Pulleys Scope of belt transmissions and how they look Recognise main belts/pulley type How belt drives get damaged Effects of pulley misalignment Effects of wrong belt tensioning Belts failures -> Inspection Replace belt drive Driven Shaft Examples of driven shafts/application Effect of unbalance Chains/Sprockets Scope of chain transmissions and how they look Recognise main chain type Chain failures -> Inspections Final Inpsection Transmission bench inspection Practical Session - SKF Transmission Demo Bench This Transmission Bench has been made specifically for operators to understand, by visual practical tests, how an elementary transmission system runs in normal and bad condition. Transmission Systems included in this training: - Bearings - Electric Motors - Coupling - Gears & Gearboxes - Belt Drives - Chain Drives Time 8.30am 4.30pm 2 days Course Fee $10,800 AUD + GST Onsite Maintenance Strategy Refer to Enrolment Form on page 125. SKF Handbook 86

Introduction to Solutions E-Learning Short Courses Industry Specific Application Specific Living Program Motor System Reliability Product & Software SKF Handbook 87

Courses Courses in this section relate to methods, technologies and best practices to develop, implement and sustain precision and proactive maintenance practices towards a goal of improved reliability and profitability. SKF Handbook 88

MS300 Optimising Asset Management through Maintenance Strategy - This course relates to methods, technologies and best practices used to develop, implement and sustain your optimised maintenance strategy and guides you to benefit from the living program for continuous improvement. Introduction to Solutions E-Learning Short Courses Industry Specific Application Specific Course Objective To understand the spectrum of asset management Ability to assess the situation, maturity and needs of an organisation Knowledge and understanding in describing and judging rotating equipment degradation processes, failure and maintenance behaviour and various assessment techniques Ability to identify, structure and classify the required data recording, reporting on performance losses, evaluation and identification of reliability killers and selecting appropriate equipment functions for improvement by the customer CMMS Ability to perform analysis of root causes by appropriate techniques and methods Ability to facilitate root cause analysis, to develop the appropriate organisation, to involve the various functions for continuous equipment reliability improvement and to identify and structure the data required by the customer CMMS Knowledge about developing and optimising maintenance programs, operations and process control procedures and the development of modifications, Maintenance Engineering (ME) methods, asset knowledge and machine maintenance techniques Gain a working knowledge of Maintenance Strategy. Review techniques focused on Reliability Centred Maintenance (RCM), optimise spare parts requirements, develop, improve or implement the Management of Change (MoC) process Living Program Motor System Reliability Innovating Promoting Maintaining Firefighting Maximum Efficiency & Effectiveness Operator Driven Reliability (ODR) Front line operators are empowered to own their machinery Pro-Active Maintenance (PRM) Predictive maintenance is applied to help identify the root causes of machine and process problems Predictive Maintenance (PdM) Machine condition is assessed using condition-monitoring technologies; shutdowns are scheduled based upon machine problems Preventive Maintenance (PM) Unplanned and planned shutdowns are scheduled to overhaul equipment at pre-determined intervals Reactive Maintenance Fix it when it breaks approach; unplanned shutdowns occur when the machine breaks Minimum Efficiency Product & Software CONTINUES NEXT PAGE SKF Handbook 89

Optimising Asset Management through Maintenance Strategy - (cont.) Course Content Important Topics Covered What is Asset Management? Brief discussion on system and process thinking Review of course learning objectives and course flow Review of participants expectations - Detail any exclusions - Detail any change of emphasis flow Explanation of the use of module feedback sheets Case studies will be developed during the course Module I Conceptual Models and Business Context Asset management Maintenance management and maintenance engineering (differences) Understanding basic terms reliability, availability, maintainability and safety Initial maintenance strategy review Life cycle management Interaction (of Asset Management) with other concepts terotechnology, ILS and TPM Required knowledge of business drivers and opportunities Getting started how and what to assess Why we need and use different types of assessments Role of assessments Case Study A review of a completed client needs analysis Module II Degradation, Failure and Maintenance Behaviour System breakdown structure (asset register), recording, reporting of performance and production losses and function Loss categories, events and causation codification (ISO14224) Understanding failure modes, rates, characteristics Maintenance strategies (run-to-failure, preventive, predictive) and work types (maintenance modification, investment) (ISO standards) CMMS requirements (data structure and content) Case Study Define failure and maintenance types, inclusion CMMS Module III Evaluation and Selection of Reliability Killers Business criticality Screening process Pattern recognition and causation Data required Evaluation of losses Selecting attractive reliability killers for analysis Case Study Simple criticality analysis Who Should Attend Maintenance, Plant/Facility Engineering staff, Rotating Equipment Engineers, Maintenance Supervisors, Managers at industrial plants, Reliability Engineers and those interested in Rotating Equipment performance. Pre-Study E-Learning courses MS100 Proactive reliability maintenance MS120 Operator Driven Reliability Reading material Asset Management Post-Study E-Learning courses MS130 Maintenance Strategy Review Reading material Asset register Asset Efficiency Optimization Work Management Process Time Course Fee 8.30am 4.30pm 4 days $2,700 AUD + GST Onsite & Public Maintenance Strategy Course fee is per person for a Public course. Contact SKF for Onsite course fee. Refer to Enrolment Form on page 125. SKF Handbook 90

MS331 Streamlined Reliability Centred Maintenance (SRCM) - The aim of this training is to provide participants the necessary knowledge of the SKF maintenance strategy review to understand the basics of Streamlined Reliability Centred Maintenance (SRCM). Introduction to Solutions E-Learning Short Courses Industry Specific Course Content Module I: Setting the scene for SRCM (Introduction) Asset Management Support Tool (AMST) module structure Module II: Conceptual models and business context Understand where SRCM came from Discuss the difference between SRCM and RCM Understand the RCM standard Discuss SRCM compliance with the RCM standard Module III: SRCM methodology Effectively discuss the SRCM process model Determine what data is required prior to SRCM Module IV: Identify what is important How to select which system to analyse Determine system boundaries Understand the importance of the functional failure analysis (FFA) Module V: Define what should be done Know what dominant failure causes are How to prescribe maintenance to critical assets How to decide run-to-failure (RTF) maintenance Know when design changes are required Module VI: Change the existing program Understand the importance of task comparison How to implement effectively What feedback is Module VII: Project steps Understand typical SRCM project steps Understand what takes place during a SRCM review meeting Course Objective Upon completion of this course students will have the knowledge to: Know how to describe the SRCM process flow Recognise the importance of data structure and content before you do any kind of strategy work Understand the importance of identifying and categorising assets Understand criticality and the Failure Modes and Effects Analysis (FMEA) approach in SRCM Understand how to develop a SRCM analysis, as well as the implications of making the strategy work Understand why to conduct a task comparison Understand methods needed for SRCM implementation Recognise what a living program is Who Should Attend Maintenance, Plant/Facility Engineering staff, Rotating Equipment Engineers, Maintenance Supervisors, Managers at industrial plants, Reliability Engineers and those interested in Rotating Equipment performance. Pre-Study E-Learning courses MS130 Maintenance Strategy Review Reading material Methodology SRCM Redefining Your Maintenance Strategy Using the SRCM Process Post-Study Reading material Criticality analysis in perspective TPM with SRCM RCM That Works - SRCM Time Course Fee 8.30am 4.30pm 3 days $2,195 AUD + GST Onsite & Public Maintenance Strategy Course fee is per person for a Public course. Contact SKF for Onsite course fee. Refer to Enrolment Form on page 125. Application Specific Living Program Motor System Reliability Product & Software SKF Handbook 91

MS332 Reliability Centred Maintenance (RCM) - Also Available: Infrared Thermography (pg. 72) SKF Handbook 92 The purpose of this course is to broaden the knowledge of the Reliability Centered Maintenance (RCM) process and illustrate how RCM can apply within an industry neutral application. RCM introduces basic concepts for asset management. Identify what is important, define what should be done, and change the existing programs is what RCM practitioners will possess and commune when applying the RCM process. We will also study some techniques that will engage people to change the existing program, as well as explore general RCM project steps. Course Content Module I: Introduction Discuss RCM terminology Module II: RCM overview and business context Understand the evolution of RCM Understand the business context of RCM Know RCM standards Module III: RCM phase what is important? Know what a criticality matrix is How to select which system to analyse Determine system boundaries Understand what failure modes, failure causes and failure effects are Module IV: RCM phase what should be done? Know what important failure characteristics are Know when to decide RTF maintenance Know when design changes are required How to prescribe maintenance to critical assets Module V: RCM customisation and requirements Understand RCM customisation Understand the use of RCM template data Determine what data is required for RCM Become aware of the asset management support tool (AMST) Module VI: Implementation and improvement Understand what a job plan is Understand how to allocate tasks Understand how to implement RCM well Understand what feedback is Module VII: RCM project Know the steps in a RCM project Module VIII: RCM project Understand the evolution of RBI Understand variations of RBI Understand the requirements for RBI Course Objective Upon completion of this course, students will have the knowledge to: Know how to describe RCM process flow Understand the differences in RCM approach Recognise the importance of data structure and content before performing any kind of strategy work Understand the importance of identifying and categorising assets Understand criticality and the FMECA approach in RCM Understand how to develop an RCM analysis as well as what the implications are of making the strategy work Understand why to conduct a task comparison Understand what work packaging is Understand methods needed for RCM implementation Recognise what a living program is Know the content of a RCM project plan Understand what risk based inspection (RBI) in the asset management support tool AMST is Pre-Study E-Learning courses MS130 Maintenance Strategy Review Reading material Using an RCM Approach for Process Hazard Analysis Revalidation Reliability Centered Maintenance Risk based inspection Post-Study E-Learning courses MS100 AEO Basics MS101 Assessment Basics Reading material Methodology SRCM How to Implement Reliability Centred Maintenance at your Facility TPM with SRCM Time 8.30am 4.30pm 3 days Course Fee $2,195 AUD + GST Onsite & Public Maintenance Strategy Course fee is per person for a Public course. Contact SKF for Onsite course fee. Refer to Enrolment Form on page 125.

Infrared Thermography - Introduction to Solutions E-Learning This course covers advanced infrared theory, equipment calibration, error sources, cross-verification with contact thermometers, advanced equipment operation, use of windows and filters, assigning temperature limits and repair priorities, and quantitative report generation. Short Courses Industry Specific Key Learning Outcomes On completion of the course students will learn: Infrared Theory & Heat Transfer Concepts, Equipment Operation, Image Processing, General applications and imaging techniques, Program design and implementation, How to comply with Industry Standards, Image Analysis & Reporting Course Content Principles of infrared thermography (IRT) Heat and heat transfer Conduction fundamentals Conductivity/resistance Convection fundamentals Radiation fundamentals Electromagnetic spectrum Atmospheric transmission IR wavebands and lens materials Stefan-Boltzmann Law Emittance, reflectance and transmittance Emissivity Factors affecting emissivity Thermometry Fundamentals Temperature scales and conversions Absolute and relative temperatures Classes and benefits of contact thermometers Classes and benefits on non-contact thermometers Identifying and reducing errors Advanced Infrared Theory Units for measuring radiant power Relationship between power and temperature Planck s blackbody curves Temperature Measurement Error Sources and Corrections Calibration - how IR sensors are calibrated - how to check calibration - calibration / accuracy specifications Reflectance - shielding techniques - measuring and compensating with direct and reflector methods Emittance - how emittance varies - using default and table values - how to measure Emittance Long Wave \ Short Wave - SW vs LW imagers Transmittance - filters to view through materials and atmospheres - filters to measure temperatures of material surfaces and atmospheres - measuring material transmittance Target Width / Distance Ratios - calculating target size / distance Traceable Temperature Limits: How Hot is Too Hot Delta-T classifications - NETA, Mil Spec, and other standards Absolute temperature classifications - ANSI, IEEE, NEMA standards for electrical systems - correction formula for load and ambient temperature - other standards for mechanical systems - ISO18434-1 Developing limits for your equipment Preparing Quantitative Reports Data to gather Report procedures Image processing software capabilities Report generation software capabilities Examination Written Practical Who Should Attend Certified Infrared Thermography Course is designed for the application of qualitative thermal imaging for P/PM, Condition Assessment, Condition Monitoring, Quality Assurance, Forensic Investigations, and Building Sciences. Get Certified! Infraspection Institute This program is compliant with international standards organizations ISO-18436 and ASNT SNT-TC-1A. This course is also approved by the InterNational Association of Certified Home Inspectors and meets the training requirements for their Infrared Certified professional designation and logo. Time Course Fee Exam Fee* Certification 8.00am 5:30pm 5 days $2,995 AUD + GST Included Onsite & Public Work Identification Infraspection Institute Certified Infrared Thermographer Course fee is per person for a Public course. Contact SKF for Onsite course fee. Refer to Enrolment Form on page 125.* This course and examination can qualify you for the certification in accordance with ASNT SNT-TC- 1A Application Specific Living Program Motor System Reliability Product & Software SKF Handbook 93

WI203 Vibration Analysis - The Vibration Analysis course is intended for personnel who have at least 12 months vibration analysis experience, and who need to be able to take good data (and decide how the data collector should be set up); analyse a range of fault conditions; and understand balancing and alignment. Also Available: Do you already have an understanding of vibration fundamentals and want to become more confident and accurate in your diagnoses? Then you will enjoy this course! Vibration Analysis (pg. 68) Vibration Analysis (pg. 102) SmartStart Microlog Product (pg. 120) Course Content The course provides a comprehensive study of machinery faults and their associated spectrum, time waveform and phase characteristics. Additional topics covered include: signal processing, data collection, and corrective active actions. Review of maintenance practices Review of condition monitoring technologies Principles of vibration Complete review of basics Waveform, spectrum (FFT), phase and orbits Understanding signals Data acquisition Transducer types, selection, and mounting Measurement point selection Following routes, test planning, measurement errors Signal processing Filters, sampling, aliasing, dynamic range, windowing Resolution, Fmax, data collection time, averaging Vibration analysis Spectrum analysis methodology Introduction to timewaveform, phase and orbit analysis Enveloping, shock pulse, spike energy, Peak Vue Detailed fault analysis Natural frequencies and resonances Imbalance, eccentricity and bent shaft Misalignment, cocked bearing and soft foot Mechanical looseness Rolling element bearing analysis Analysis of induction motors, gears, belts, pumps, compressors and fans Lots of case studies and exercises for participants Equipment testing and diagnostics Impact testing (bump tests) Phase analysis Corrective action General maintenance repair activities Review of the balancing and shaft alignment process Successful condition monitoring program Setting baselines and alarm limits Report generation, reporting success stories Acceptance testing and ISO standards Key Learning Outcomes You will come away from this course with a solid understanding of: well designed program and the reliability centered maintenane approach (with precision balancing, alignment, lubrication and resonance control) will improve the OEE and therefore the bottom line Condition Monitoring Technologies: acoustic emission, infrared thermography, oil analysis, wear debris analysis, electric motor testing How machines work via supplementary self-study using the Equipment Knowledge section Select the correct measurement location and axis, and collect good, repeatable measurements What the Fmax, resolution, averaging and other analyser setting mean, and how to select the optimum settings for a wide variety of machine types Analyse vibration spectra, time waveforms, envelope and phase measurements CONTINUES NEXT PAGE SKF Handbook 94

Introduction to Solutions Vibration Analysis - (cont.) Diagnose a range of fault conditions: unbalance, eccentricity, misalignment, bent shaft, cocked bearings, looseness, rolling element bearings faults, journal bearing faults, gearbox faults, resonance, and other conditions How to set alarm limits manually and with statistics How to balance and align a machine, and correct a resonance condition Get Certified! E-Learning Short Courses Industry Specific Application Specific The training course strictly follows ISO 18436-2 and 18436-3. The optional Certification Exam is provided by Mobius Institute Board of Certification, which is ISO/IEC 17024 accredited in accordance with ISO 18436-1 and ISO 18436-2. Students who meet the experience requirements, complete the course and pass the examination will become certified according to ISO 18436-1 and ISO 18436-2, providing the highest recognised certification available anywhere. Who Should Attend? If you have been performing vibration analysis for more then six months and feel that you have a good understanding of the fundamentals, then you are ready to step up to the II course. (Note that 18 months experience is required to be certified). Anyone who wants to be capable of confidently diagnosing a wide range of fault conditions, correcting certain conditions, and taking accurate measurements, needs to take this course. Living Program Motor System Reliability Product & Software Time 8.00am 4.30pm 4.5 days + half day exam Course Fee $2,700 AUD + GST Exam Fee $350 AUD + GST Onsite & Public Work Identification Certification* Vibration Analyst 2 Course fee is per person for a Public course. Contact SKF for Onsite course fee. Refer to Enrolment Form on page 125. SKF Handbook 95

WI245 Machinery Lubrication and Oil Analysis - Also Available: Learn how to read and understand oil analysis reports, set optimum oil analysis limits, reduce oil consumption and achieve maximum life out of lubricants. Machinery Lubrication and Oil Analysis (pg. 70) Course Objectives Most maintenance programs achieve only 10% of the benefits available from oil analysis. Learn how to get the most out of oil analysis by attending these powerful training sessions. Key Learning Outcomes Read and understand oil analysis reports Tell if you are using the wrong oil Squeeze maximum life out of lubricants Set optimum oil analysis limits Reduce oil consumption for easy, near-term savings Who Should Attend Condition Monitoring Engineer/Technician, Electrical Manager/Supervisor, Engineering Manager/Supervisor, Mechanical Maintenance Engineer/Manager/Supervisor, Operations Manager/Supervisor, Quality Engineer, Reliability Engineer/Supervisor/Manager. If you have any of the following machines this training is a must Gear Boxes Motor Bearings Final Drives Paper Machines Steam Turbines Blowers/Fans Hydrostatic Transmissions Hydraulic Systems Compressors Diesel Engines Process Pumps Gas Turbines Rolling Mills Course Content Introduction to Machinery Lubrication Oil formulation and its importance in effective machinery lubrication Key functions of lubricating oils Primary lubrication regimes Introduction to base oils and additives Choosing the correct base-stock Conditions that dictate use of synthetic oils Antioxidant additives and their role in oil life Dispersants and detergents - the key to controlling soot Controlling wear with additive chemistry Oil Sampling - The Very Best Practices Simple steps to reliable and easy oil sampling How to find the best sampling location Sampling splash- collar- and ring-lubricated systems How to sample circulating systems Safe, effective high-pressure sampling from hydraulic systems Using primary and secondary sampling points A quick method for optimising sampling intervals How clean should sample bottles be? Sampling valves and hardware recommendations Fundamentals of Friction and Machine Wear Primary sources of friction in lubricated machinery Wear mechanisms that reduce machine life The most common wear modes in plain, rolling element and thrust bearings Understanding gear wear Understanding wear in hydraulic systems CONTINUES NEXT PAGE SKF Handbook 96

Machinery Lubrication and Oil Analysis - (cont.) Machine Fault Detection and Debris Analysis How wear metals are measured using RDE and ICP spectrometers Measuring larger particles with Rotrode Filter spectroscopy Using ferrous density to determine the severity of a wear problem Using analytical ferrography for advanced fault detection Using ferrography for root cause analysis Fluid Properties Analysis Common root causes of oil degradation Recognising and controlling oil oxidation Monitoring lubricant degradation using acid number Monitoring lubricant health using FTIR Determining oil life using RPVOT Recognising and controlling thermal failure How to recognise additive depletion or degradation Using paper chromatography (blotter spot test) to detect additive and base oil degradation Ways to detect the addition of wrong oil Contamination Control and Proactive Maintenance Common contaminants Oil cleanliness and oil life extension benefits Using the ISO Solid Contamination Code Proactive maintenance in three easy steps Case studies for proactive maintenance Oil filter and breather recommendations Portable filtration carts - three ways to use them Setting targets for oil cleanliness Detecting and controlling moisture contamination Selecting moisture removal/filtration methods The effects of heat on lubricants Controlling air entrainment and foam Glycol contamination Dealing with soot Understanding fuel contamination Onsite Tests How to inspect vents and breathers Tips for effective sight glass inspection Getting valuable information from used filters Inspecting reservoirs for clues about lube trouble Getting visual clues from the oil sample before mailing it out Screening for water with a simple hot plate Interactive Workshop Group participation in problem-solving exercises How to read an oil analysis report Get Certified! The International Council for Machinery Lubrication (ICML) will be conducting Machinery Lubrication exams, the morning following each course.* * Please confirm with SKF prior to the course Time 7.30am 4.30pm 3 days + half day exam Course Fee $2,700 AUD + GST Exam Fee $275 AUD + GST Onsite & Public Work Identification Certification Lubricant Analyst Course fee is per person for a Public course. Contact SKF for Onsite course fee. Refer to Enrolment Form on page 125. Examination fee can be arranged directly with ICML for $275 USD per person by visiting www.icmlonline.com/apply Introduction to Solutions E-Learning Short Courses Industry Specific Application Specific Living Program Motor System Reliability Product & Software SKF Handbook 97

WE204 Root Cause Bearing Damage Analysis - Also Available: Bearing Technology & Maintenance (pg. 80) This course is taught to the new ISO Standard 15243. Discussions include initial damage and failure causes, failure streams and visible conditions at the time of bearing removal. You will analyse actual bearings from a variety of distress, damage and failure conditions using our methodology to determine the root cause of the failure mechanism. Key Learning Outcomes On completion of this course, students will be able to provide background and methodology for analysing failed and damaged bearings and their components. Students will be able to uncover the true root causes of bearing damage and failures, and reduced service life. Course Content Bearing knowledge Understand common bearing terminology Learn basic knowledge required for bearing damage analysis Load path patterns in bearings Understand bearing operation Understand normal load patterns Discuss abnormal load patterns and their causes Methodology Understand why bearings fail in service Understand the concept of Root Cause Failure Analysis (RCFA) Perform bearing damage analysis including reporting ISO 15243 Bearing damage modes and classification Understand the main points that the ISO classification is based upon Understand the terminology and visual appearance of failure modes Hands-on - Analysis of sample bearing damages Inspect a series of sample bearing damages and report the findings Group discussion on the cases We encourage participants to bring a damaged bearing (and machine history) from their plant, to analyse during the workshop sessions Who Should Attend Service, Maintenance, Machine Repair, or Plant/Facility Engineering staff of an industrial plant, OEM facility, institution public utility or commercial building which uses rolling bearings and related equipment Managers and Technicians at industrial plants and OEM facilities responsible for rolling bearing performance and reliability Rotating Equipment Engineers, Reliability Engineers, Millwrights, Mechanics, and Maintenance Supervisors Those interested in rolling bearing and rotating equipment performance Pre-Study E-Learning courses GRB001 Bearing Basics WE104 Bearing Damage Classification Reading material Damage mechanisms Post-Study Reading material Golden opportunities Bearing failures and their causes Root Cause Analysis Time Course Fee 8.30am 4.30pm 2 days $1,675 AUD+ GST Onsite & Public Work Execution Course fee is per person for a Public course. Contact SKF for Onsite course fee. Refer to Enrolment Form on page 125. SKF Handbook 98

Introduction to Solutions E-Learning We ve become proficient at troubleshooting We have always been a bit mystified about Root Cause Failure Analysis it reminded us of root canal work, which nobody likes. Last year, several of our key maintenance people attended the SKF training course on this mystery subject and came back with an amazing grasp and real-world answers to some of our most serious machine failure problems. We ve eliminated expensive guesswork, and repairs are right the first time. Short Courses Industry Specific Application Specific Living Program Motor System Reliability Product & Software SKF Handbook 99

Courses Courses in this section provide an advanced study in diagnosing the behaviour of rotating machinery of various types and classifications, to identify optimum required corrective actions. SKF Handbook 100

OEM301 Bearing System Design - The Bearing System Design course is an advanced training that highlights an understanding of rolling element bearing, seal and lubrication technologies and theories used in selection processes for typical industrial applications, with the ultimate objective of improving the life, functionality, and operational reliability of rotating equipment. Introduction to Solutions E-Learning Short Courses Industry Specific Course Content Bearing theory Purpose of bearings Rolling element bearing history Rolling element contact behavior Bearing components and functions Rolling elements, rings and cages Component materials Selection of bearing type Advantages and disadvantages of various bearing types Bearing features and functionalities Selection of bearing size Determining loads and duty cycles Bearing life determination using: -Basic L10 method -Adjusted life method -Optimizing bearing life with the latest life methodologies Computer-based tools (SKF.com, IEC and Bearing Select) Bearing dimensional tolerances Dimensional tolerance classes Internal clearances and preload classes Friction and speeds Friction model within rolling element bearings Speed rating methodologies Bearing system design Associated component design Locating and non-locating Shaft and housing fits Selection of internal clearance or preload Bearing material selection Mounting and dismounting considerations Sealing requirements Mechatronics Bearing arrangements Bearing types and integration Lubrication Overview of lubricants Selection of appropriate lubricant Lubricant life estimation Lubrication methods Machine system health Vibration analysis Temperature monitoring Lubrication analysis Bearing damage and causes Analysis of common failure modes Mounting and operating conditions Storage, shipping and handling Who Should Attend Design engineers directly responsible for machine design incorporating rolling element bearings at OEM facilities or users interested in optimising performance in existing machinery. Those interested in optimising rolling element bearing performance in rotating equipment. Pre-Study E-Learning courses GRB001 Bearing Basics Reading material Using a friction model as an engineering tool The SKF formula for rolling bearing life Post-Study Reading material Rolling Bearings in Electrical Motors and Generators Bearings for Fans Rolling Bearings in Centrifugal Pumps Time Course Fee 8.30am 4.30pm 4 days $2,690 AUD + GST Onsite & Public Work Identification Course fee is per person for a Public course. Contact SKF for Onsite course fee. Refer to Enrolment Form on page 125. Application Specific Living Program Motor System Reliability Product & Software SKF Handbook 101

WI204 Vibration Analysis - The Vibration Analysis course is intended for personnel who have at least 2 years vibration analysis experience and a good understanding of vibration theory and terminology. The course provides a comprehensive study of diagnostic measurement techniques, a wide range of analysis techniques, and the steps required to manage a successful condition monitoring program. SKF Handbook 102 Key Learning Outcome You will come away from this course with a solid understanding of: A well designed program and the reliability centered maintenane approach (with precision balancing, alignment, lubrication and resonance control) will improve the OEE and therefore the bottom line Condition Monitoring Technologies: acoustic emission, infrared thermography, oil analysis, wear debris analysis, electric motor testing Select the correct measurement location and axis, and collect good, repeatable measurements What the Fmax, resolution, averaging and other analyser setting mean, and how to select the optimum settings for a wide variety of machine types Analyse vibration spectra, time waveforms, envelope and phase measurements Diagnose a range of fault conditions: unbalance, eccentricity, misalignment, bent shaft, cocked bearings, looseness, rolling element bearings faults, journal bearing faults, gearbox faults, resonance, and other conditions How to use phase readings, bump tests, impact tests, negative averaging, peakhold averaging, ODS, and modal analysis to determine natural frequencies and visualise machine movement How to set alarm limits manually and with statistics How to balance and align a machine, and correct a resonance condition Course Content The focus of this course is on practical knowledge and understanding of machine knowledge, faults and how to recognize problems in time to plan for an outage and act before catastrophic failure or collateral damage takes place. Principles of vibration Very quick review of fundamentals Waveform, spectrum, phase, vectors and orbits Signals: transients, pulses, modulation, beating, sum/difference Force, response, damping, and stiffness Cepstrum analysis Data acquisition Planning routes, test locations and programs Signal processing Sampling, resolution, Fmax, averaging, windowing, dynamic range, signal-to-noise ratio A/D conversion: constant and variable sampling rate Vibration analysis Spectral, time waveform and envelope analysis Equipment testing and diagnostics Impact testing (bump tests) Phase analysis Transient analysis Operating deflection shape analysis Introduction to modal analysis Cross channel measurements Cross channel measurements Fault analysis in detail Natural frequencies and resonances Imbalance, eccentricity and bent shaft Misalignment, cocked bearing and softfoot Mechanical looseness Rolling element bearing analysis Analysis of turbo-machinery and sleeve bearings Analysis of AC, DC and variable frequency drives Analysis of gears and belt driven machines Analysis of pumps, compressors and fans Lots of casestudies and exercises for participants Corrective action Balancing and shaft alignment Resonance control, isolation and damping Successful condition monitoring program Alarms, reports, management, finances Acceptance testing and ISO standards CONTINUES NEXT PAGE

Introduction to Solutions Vibration Analysis - (cont.) E-Learning Get Certified! Short Courses Industry Specific The training course strictly follows ISO 18436-2 and 18436-3. The optional Certification Exam is provided by Mobius Institute Board of Certification, which is ISO/IEC 17024 accredited in accordance with ISO 18436-1 and ISO 18436-2. Students who meet the experience requirements, complete the course and pass the examination will become certified according to ISO 18436-1 and ISO 18436-2, providing the highest recognised certification available anywhere. Who Should Attend It is expected that the participant is either the leader of the vibration team, or takes a leading role in diagnosing faults and making the final recommendation. This person must fully understand all of the data collector options, special test capabilities, and analysis tools; and must understand the widest range of fault condition. Time 8.00am 4.30pm 4.5 days + half day exam Course Fee $3,140 AUD + GST Exam Fee $400 AUD + GST Onsite & Public Work Identification Certification* Vibration Analyst 3 Certification Application Specific Living Program Motor System Reliability Product & Software Course fee is per person for a Public course. Contact SKF for Onsite course fee. Refer to Enrolment Form on page 125. * Certification complies with ISO 18436.2 3 standard. SKF Handbook 103

Infrared Thermography - This course covers advanced topics related to developing, implementing, and managing a successful infrared inspection program. Topics include: latest applications, hardware & software, current industry standards & specifications, OSHA and NFPA safety standards, marketing and promoting an infrared inspection program, thermography as legal documentation, heat transfer analysis software, current industry certification criteria, and how to develop and implement standards-compliant written practices and procedures. SKF Handbook 104 Key Learning Outcomes On completion of the course students will be able to understand advanced infrared theory, calibrate IR equipment to run advanced diagnoses and run quantitative reports. Students will also sit the Infraspection Institute Certified Infrared Thermographer exam. Course Content Ensure a Successful Infrared Inspection Program Define a successful program and identify program obstacles Understand the requirements of OSHA, NFPA, and other regulatory agencies Identify and specify safe practices for performing IR inspections Eliminate recurring problems through application of Root Cause Failure Analysis Explore Latest Technology Discover newest applications for infrared thermography Discuss features and benefits of new test equipment Utilise state-of-the-art software for data management & report generation Identify industry trends and business opportunities Understand Industry Standards & Specifications Review current standards and specifications ASTM, ANSI, ASNT, Infraspection Institute, ISO, NETA, NFPA Examine current NDT certification programs Identify certification criteria Develop a written practice for thermographer certification using ASNT standards Marketing and Promoting an Infrared Inspection Program Enlist principles of marketing to identify, position and price IR services Analyse best practices for effective promotion Discuss key elements for an effective website Explore e-commerce opportunities to increase revenue Thermography and the Law Review importance of thermography as legal evidence Examine role of the thermographer as an expert witness Identify appropriate report content Learn cardinal rules for delivering testimony Advanced Heat Transfer Theory and Applications Discuss heat transfer analysis software Learn how to quantify heat loss in structures, piping, and insulated systems Understand appropriate application of available software Recognise benefits of computer modeling for financial calculations Integrating PdM Technologies Discuss role of thermography as a PdM technology Identify complementary PdM technologies Learn necessary steps to effectively implement a PdM program Ensure program longevity through proper planning and management Who Should Attend Be acknowledged at the highest level. Level III focuses on best practices for infrared thermographers. Level III Certified Infrared Thermographer is focused on best practices for infrared inspections and associated activities. This course contains information vital to the long term success of any infrared inspection program. Get Certified! Infraspection Institute This program is compliant with international standards organizations ISO-18436 and ASNT SNT-TC-1A. This course is also approved by the International Association of Certified Home Inspectors and meets the training requirements for their Infrared Certified professional designation and logo. Time Course Fee Certification 8.00am 5:30pm 3 days $2,995 AUD + GST Onsite & Public Work Identification Infraspection Institute Certified Infrared Thermographer Course fee is per person for a Public course. Contact SKF for Onsite course fee. Refer to Enrolment Form on page 125. * This course and examination can qualify you for the certification in accordance with ASNT SNT-TC-1A

WI305 Applied Modal and Operating Deflection Shape Analysis To provide students with a working knowledge of Experimental Modal Analysis and Operating Deflection Shape Analysis (ODS) from a field vibration analyst perspective. Introduction to Solutions E-Learning Short Courses Industry Specific Course Objectives Upon completion of this course, students learn how to: Create computer models of plant machinery and structures Acquire meaningful Modal and ODS measurements Generate and import Modal and Operating Deflection Shape Analysis measurements Generate meaningful machinery computer animations needed to detect and resolve noteworthy problems such as resonance, structural weakness, foot related problems, design inadequacies, sources of excessive vibration. Course Content Introductory analysis lecture This portion of the course provides background information on Experimental Modal and Operating Deflection Shape (ODS) Analysis topics with extensive case histories and instructor experience. Advanced analysis without complex mathematics Understanding modes of simplified animation shapes (beams, columns, plates, and shells) How to construct meaningful computer models of machines and structures Choosing required numbers of points and directions for ODS and Modal analysis Recommended measurement setups for ODS and Modal analysis field testing How to accurately interpret computer model animations (leading to problem resolution) How to confirm what specific component is resonant on a complex machine, support frame, foundation and attached piping, ductwork, and more How to identify optimum corrective actions Presentation of numerous demonstrations and class exercises ODS and Modal real-world case studies Hands-On ME scopeves Software The hands-on training utilises the ME scopeves Handbook. This is a continually updated practical step-by-step software guide and reference source that can be consulted over and over again. Complex methodologies are completely worked out for the student helping to ensure accurate analysis and repeatable results. Multiple hands-on projects that include real-world data cover all major ME scopeves software applications. Establish a project Create a computer model of a machine or structure Import data from the data acquisition instrument ODS and ODS FRF data interpretation Modal data interpretation Modal analysis curve fitting and generation of computer animations Structural dynamics modification (SDM) Students are required to bring a laptop computer with Windows XP or Vista. Vibrant Technology ME scopeves software and extensive training manuals will be provided. Who Should Attend Plant personnel that need a basic understanding of Modal and Operating Deflection Shape Analysis techniques on machinery and structures, as well as a practical understanding of ME scope VES modal/ ODS software. Pre-requisite 5 8 years full-time vibration analysis experience. Knowledge of vibration sensors and vibration instruments. Pre-Study E-Learning courses MS120 Operator Driven Reliability Reading material Operating deflection shape analysis MEScope Import Post-Study E-Learning courses MS100 AEO Basics MS101 Assessment Basics Reading material Fans - Work Execution Time 8.30am 4.30pm 5 days Course Fee $2,690 AUD + GST Onsite & Public Work Identification Course fee is per person for a Public course. Contact SKF for Onsite course fee. Refer to Enrolment Form on page 125. Application Specific Living Program Motor System Reliability Product & Software SKF Handbook 105

Living Program Courses in this section, relate to methods and technologies used to evaluate maintenance work and strategy, thereby closing the loop and making maintenance a continual improvement process. SKF Handbook 106

LP200 Root Cause Analysis Introduction to Solutions E-Learning This course provides a working knowledge of the Root Cause Analysis (RCA) methodology. It helps anyone to understand fundamental problem solving processes, examine the basic concepts of problem solving, how to facilitate an effective investigation and develop actionable solutions. Short Courses Key Learning Outcomes Understanding the importance of RCA in delivering internal services and its role in relation to other tools, notably vibration diagnostics, bearing failure diagnostics and maintenance strategy Becoming confident in building why? trees and the 7 steps of root cause study Students will be equipped with tools to resolve complex problems and think laterally to explore causes of a problem Course Content The key elements of Root Cause Analysis process discussed include: Working from existing corporate information systems to capture events and incidents where RCA will be beneficial - Machinery failures resulting in actual or potential loss of plant output. - Machinery failure that represents a large or unbudgeted repair cost - Safety, health or environmental breaches - Repetitive failures that collectively represent an excessive maintenance cost. - A non-conformance in maintenance strategy Prioritise incidents and formally launch the RCA study by defining the problem Collect and preserve evidence that will provide evidence on the incident Expose the causes of the incident by building a why? tree. In general each incident will have three types of root causes - Technical causes - Human causes - Organisational causes Only when all three types of causes have been exposed, can the RCA be considered complete Propose practical actions that will address root cause of the incident and develop a business case for management approval of the resulting actions Following management approval, assign actions for implementation and track actions to completion Measure the performance of the RCA program through appropriate KPI s Who Should Attend Anyone whose job involves problem solving, safety, reliability, quality control, operations and logistics, production line or anyone who wants to eliminate recurring failures and improve efficiency. Pre-Study E-Learning courses WI140 Lubrication Analysis Basics MS101 Assessment Basics Reading material NC_0702 Basic Elements of a Comprehensive Root Cause Analysis Program MB04034 PdM and RCFA-A Powerful Combination GS02003 Root Cause Analysis GS03008 RCFA Report Template Time Course Fee Certification 8.30am 4.30pm 2 days $12,000 AUD + GST Onsite Living Program Root Cause Analysis Course fee is per person for a Public course. Contact SKF for Onsite course fee. Refer to Enrolment Form on page 125. Industry Specific Application Specific Living Program Motor System Reliability Product & Software SKF Handbook 107

LP240 Life Cycle Costing Life Cycle Costing can be used to inform decision makers about acquiring, construction, operating, maintaining, modifying, and disposing of assets. It is a method of determining total cost of ownership of an asset. It takes the form of a structured approach that addresses all of the elements of this cost and used to produce a cash flow profile of the asset over its anticipated lifespan. Key Learning Outcomes Upon completion of this Life Cycle Costing (LP240) course, attendees will be able to: Understand the theory and application of Life Cycle Costing and its benefits Be equipped with the necessary knowledge and abilities to gather relative data and create Life Cycle Cost (LCC) models Develop the relevant data required for a LCC model Discount future cash flows using the appropriate discount factors Develop LCC models Develop sensitivity models Course Content Life Cycle Costing (LCC) What is LCC? Why do we need LCC Analysis? Benefits of LCC Who needs to be involved? Principles The Process Fundamental Cost Types The Methodology of LCC The Basis for LCC Analysis Cost Breakdown Structure (CBS) Cost Estimating Other Issues Discounting and Its Effect Concept of Discounted Cash Flow (DCF) The Time Value of Money Normal, Real, and Discount Costs Inflation Discounting Future Costs Net Present Value (NPV) Cash Flow Determination Internal Rate of Return (IRR) Internal Rate of Return Capital Expenditure (CAPEX) and Operational Expenditure (OPEX) CAPEX OPEX The Need for LCC Time Course Fee Course fee for maximum of 15 attendees. 8.30am 4.30pm 2 days $12,000 AUD + GST Per Class Onsite Living Program SKF Handbook 108

LP300 SiteMentor This course provides a solid foundation in proactive maintenance practices, which is critical to achieve maximum machine reliability and performance. SiteMentor helps you uncover problem areas and implement improvement methods. Each SiteMentor training session is custom tailored to your industry and working environment, and requires from three-to-five days on site. Introduction to Solutions E-Learning Short Courses Industry Specific Course Content Sessions typically start with a short classroom review and demonstration on the topics being covered then it s off to the site to learn. Leverage your classroom training investment to reap the largest returns by putting what s taught in the classroom into practice in the field. The SKF SiteMentor programs need to be scheduled in advance and typically require some preparation time preceding the on-site session. Arrangements can be made for the use or rental of SKF tools and equipment during the training. Skills, training and equipment assessment reports can also be developed as part of an overall precision and proactive maintenance strategy. Who Should Attend Those interested in improving maintenance practices, procedures and processes through a customised one-on-one training program. Maintenance personnel who need to better understand current technologies with condition monitoring, precision maintenance skills, bearings and lubrication. If you ve taken a public classroom course and want more hands on activity directly related to your equipment, this program is for you. Time Course Fee 8.30am 4.30pm TBC POA Onsite Living Program Application Specific Living Program Motor System Reliability Product & Software SKF Handbook 109

Motor Systems Reliability Courses in this section are offered in several levels, dependent upon the individual s skill level. These courses include the theory behind electric motors and how they operate, fault and failure modes, testing parameters and handson operation of the equipment. SKF Handbook 110

Motor Test Instrument and Technology Introduction to Solutions E-Learning These courses can help you optimise your predictive maintenance, motor repair, and motor rebuild efficiencies. Optimal plant operation and rebuild accuracy are common pursuits of maintenance and motor shop personnel. Electric motor theory basics and technology training courses offer more than traditional equipment training programs These courses enable maintenance and motor shop professionals to produce results from electrical motor programs that focus on enhancing the overall knowledge of motor theory along with basic to advanced operation of equipment. Short Courses Industry Specific Application Specific Boost productivity Learn testing techniques that improve motor reliability, increase plant efficiency, or decrease motor shop warranty work. Become proficient at troubleshooting by understanding basic motor theory and the reasons that motors fail. This increases the maintenance professionals ability to find problems quickly and return rotating equipment to service. Extend maintenance intervals Knowing motor conditions plant wide enables maintenance professionals to schedule maintenance intervals to suit process watch lists. Avoid costly downtime Motor failures cost industries hundreds of thousands of dollars each year. Obtain valuable information and learn techniques to detect motor problems prior to failure, avoiding costly downtime. Increase efficiency of critical equipments Every plant has a percentage of equipment that is critical to their processes. Ensuring the reliability of these machines is paramount to profitability of the plant. Obtain the knowledge necessary to increase critical motor reliability. WI261 Introduction to Static Testing and Dynamic Motor Monitoring This introductory course will benefit the attendee by allowing them to obtain information from both technologies simultaneously. The first day and a half will be spent covering the concepts and theories of off-line motor testing and the second day and a half will cover the technical theory of online motor monitoring. The final day will be dedicated to more hands on and theory testing. Key Learning Outcomes Develop a general understanding of what static testing and dynamic motor monitoring involves Knowledge of what standards are used in testing electric motors Develop a general understanding of electrical motor theory Knowledge of general workings of instrumentation for both static motor testing and dynamic motor monitoring Course Content Basic AC motor theory Basic electromagnetic theory Basic AC motor construction Various types of motors Introduction to static motor theory Insulation systems Failure mechanisms Testing methods and pass/fail criteria Recommended test voltages Test sequence overview Introduction to dynamic motor monitoring Machine system overview Properly connecting the Explorer Obtaining quality data Power, motor, load assessments Time Course Fee 8.30am 4.30pm 4 days $1,995 AUD + GST Onsite & Public Work Identification Course fee is per person for a Public course. Contact SKF for Onsite course fee. Refer to Enrolment Form on page 125. Living Program Motor System Reliability Product & Software SKF Handbook 111

WI262 Static Motor Testing/ Introduction to DC Motor Testing This course will provide comprehensive technical theory behind the need for electrical testing. Through this course, learn about the methods used to cut costly downtime through improved predictive maintenance, troubleshooting, and motor quality control. Key Learning Outcomes Develop an in-depth understanding of the Static tester and any software interfaces General understanding of motor testing applications Develop an in-depth understanding of electrical motor theory and how it pertains to high voltage motor testing Hands on training for true familiarity with instrumentation connection and operation Course Content Static high voltage motor testing theory Insulation systems Failure modes and mechanisms Test methods ANSI/IEEE/EASA/NEMA testing standards Recommended test voltages/sequences Analysis of results Software training Creating databases, motors, and test ID s Data collection parameters Establishing and understanding pass/fail criteria Data interpretation Non-three phase motor testing DC motors Synchronous motors Wound rotor motors Non-rotating equipment Time 8.30am 4.30pm 4 days Course Fee $1,995 AUD + GST Onsite & Public Work Identification WI263 Dynamic Motor Monitoring/ Introduction to DC Motor Monitoring This course will provide comprehensive technical theory on the concepts behind online motor monitoring along with plenty of hands on experience to help the attendee develop a true comfort level with the instrumentation. Comprehensive hook-up techniques and software training are included, along with safety precautions for use of the equipment. Course Content Dynamic motor monitoring theory Power condition parameters Motor performance/condition Energy efficiency development Torque waveform development Software training Creation and management of databases Creation and editing electrical test models Test acquisition setup Data collection Basic data interpretation and analysis Intro to DC online analysis Basic DC motor theory and concepts Ensuring proper connections Software functionality Basic DC analysis Time Course Fee 8.30am 4.30pm 4 days $1,995 AUD + GST Onsite & Public Work Identification Course fee is per person for a Public course. Contact SKF for Onsite course fee. Refer to Enrolment Form on page 125. Course fee is per person for a Public course. Contact SKF for Onsite course fee. Refer to Enrolment Form on page 125. SKF Handbook 112

WI364 Dynamic Motor Monitoring This course is designed to build on the knowledge obtained from previous course work and significant field experience with dynamic motor monitoring equipment. The course will provide instruction on detailed diagnosis of data through the use of case study presentations, hands-on data analysis of past problems, hands-on live motor acquisition, and analysis in a laboratory environment. Key Learning Outcomes Develop an in-depth understanding of the Static tester and any software interfaces General understanding of motor testing applications Develop an in-depth understanding of electrical motor theory and how it pertains to high voltage motor testing Hands on training for true familiarity with instrumentation connection and operation Course Content Dynamic motor monitoring theory Level I review, including basic DC analysis Fundamentals of waveform and spectral analysis Power condition Motor performance/condition Energy efficiency assessment Motor load assessment Torque analysis Fundamental fault frequency characteristics Software training Level I software review Advanced data collection techniques Intermediate waveform interpretation and analysis Intermediate spectrum interpretation and analysis Case studies AC case studies review and hands on analysis DC case studies review Time Course Fee 8.30am 4.30pm 4 days $2,100 AUD + GST Onsite & Public Work Identification Course fee is per person for a Public course. Contact SKF for Onsite course fee. Refer to Enrolment Form on page 125. WI365 Dynamic Motor Monitoring Advanced Diagnostics This course is designed to build upon the knowledge obtained by previous course work and significant field experience with dynamic motor monitoring equipment. This course will provide instruction on advanced diagnosis of data through the use of case study presentations, hands-on data analysis of past problems, and hands-on live motor acquisition, and analysis in a laboratory environment. Course Content Dynamic motor monitoring theory Level I review, including basic DC analysis Fundamentals of waveform and spectral analysis Power condition Motor performance/condition Energy efficiency assessment Motor load assessment Torque analysis Fundamental fault frequency characteristics Software training Level I software review Advanced data collection techniques Intermediate waveform interpretation and analysis Intermediate spectrum interpretation and analysis Case studies AC case studies review and hands on analysis DC case studies review Time Course Fee 8.30am 4.30pm 4 days $2,100 AUD + GST Onsite & Public Work Identification Course fee is per person for a Public course. Contact SKF for Onsite course fee. Refer to Enrolment Form on page 125. Introduction to Solutions E-Learning Short Courses Industry Specific Application Specific Living Program Motor System Reliability Product & Software SKF Handbook 113

Product & Software This section includes various Products & related Workstations, designed to facilitate individual tuition with step by step instructions to perform various maintenance tasks. SKF Handbook 114

MSC-TAFEKIT-1 Products Bearing Mounting and Dismounting Demonstration Kit The SKF Bearing Mounting and Dismounting Demonstration Kit has been designed for use as a comprehensive teaching aid for industries in Australia. It facilitates instruction in all aspects of bearing mounting and dismounting procedures including induction heating, mechanical tools, oil injection and lubrication. All the equipment required to perform these tasks are included in the SKF Bearing Mounting and Dismounting Demonstration Kit. Through the construction of the various shaft, housing and sealing arrangements, students can build a working model. They can then test the different techniques they have learned. SKF Bearing Mounting and Dismounting Demonstration Kit includes a manual with step by step instructions and exercises which allow for individual tuition for each student. It also comes in a high quality metal cabinet. Contents SKF Bearing Mounting and Dismounting Demonstration Kit contains Bearings Sleeves Housings and Accessories Hook Spanners Hydraulic Nut Feeler Gauge Bearing Puller Grease Induction Heater Vibration Monitoring Equipment Electric Motor Digital Thermometer System 24 Automatic Lubricator Join the many Industries already using the SKF Bearing Mounting and Dismounting Demonstration Kit. Price: $38,850 AUD + GST Introduction to Solutions E-Learning Short Courses Industry Specific Application Specific Living Program Motor System Reliability Product & Software Radial Internal Clearance Reduction in Axial drive-up (mm) Bearing bore before mounting bearings (mm) radial internal diameter d (mm) Normal C3 C4 clearance (mm) Taper 1:12 on diameter Taper 1:30 on diameter over i nc. minm ax minm ax minm ax minm ax minm ax min max 24 30 0.030 0.040 0.040 0.055 0.055 0.075 0.010 0.015 0.25 0.29 -- 30 40 0.035 0.050 0.050 0.065 0.065 0.085 0.015 0.020 0.30 0.35 -- 40 50 0.045 0.060 0.060 0.080 0.080 0.100 0.020 0.025 0.37 0.44 -- 50 65 0.055 0.075 0.075 0.095 0.095 0.120 0.025 0.035 0.45 0.54 1.15 1.35 65 80 0.070 0.095 0.095 0.120 0.120 0.150 0.035 0.040 0.55 0.65 1.40 1.65 80 100 0.080 0.110 0.110 0.140 0.140 0.180 0.040 0.050 0.66 0.79 1.65 2.00 100 120 0.100 0.135 0.135 0.170 0.170 0.220 0.050 0.060 0.79 0.95 2.00 2.35 120 140 0.120 0.160 0.160 0.200 0.200 0.260 0.060 0.075 0.93 1.10 2.30 2.80 140 160 0.130 0.180 0.180 0.230 0.230 0.300 0.070 0.085 1.05 1.30 2.65 3.20 160 180 0.140 0.200 0.200 0.260 0.260 0.340 0.080 0.095 1.20 1.45 3.00 3.60 180 200 0.160 0.220 0.220 0.290 0.290 0.370 0.090 0.105 1.30 1.60 3.30 4.00 200 225 0.180 0.250 0.250 0.320 0.320 0.410 0.100 0.120 1.45 1.80 3.70 4.45 225 250 0.200 0.270 0.270 0.350 0.350 0.450 0.110 0.130 1.60 1.95 4.00 4.85 250 280 0.220 0.300 0.300 0.390 0.390 0.490 0.120 0.150 1.80 2.15 4.50 5.40 280 315 0.240 0.330 0.330 0.430 0.430 0.540 0.135 0.165 2.00 2.40 4.95 6.00 315 355 0.270 0.360 0.360 0.470 0.470 0.590 0.150 0.180 2.15 2.65 5.40 6.60 355 400 0.300 0.400 0.400 0.520 0.520 0.650 0.170 0.210 2.50 3.00 6.20 7.60 400 450 0.330 0.440 0.440 0.570 0.570 0.720 0.195 0.235 2.80 3.40 7.00 8.50 450 500 0.370 0.490 0.490 0.630 0.630 0.790 0.215 0.265 3.10 3.80 7.80 9.50 500 560 0.410 0.540 0.540 0.680 0.680 0.870 0.245 0.300 3.40 4.10 8.40 10.30 560 630 0.460 0.600 0.600 0.760 0.760 0.980 0.275 0.340 3.80 4.65 9.50 11.60 SKF505/1 SKF Handbook 115

MSC-STATIONS Products Bearing Workstations Workstation A - Bearing Identification 8 bearings have had the designations removed. The principal dimensions of each bearing are measured. Using these measurements and the SKF General Catalogue for reference, the bearings can be identified and listed, giving the correct basic designation for each. Price: $850 AUD + GST Workstation C - Mounting of paired Single Row Angular Contact Ball Bearings, a Cylindrical Roller Bearing and Radial Shaft Seals in to a 2-bearing housing assembly. This workstation demonstrates how to correctly mount and dismount back-to-back angular contact ball bearings and cylindrical roller bearings. A special guide sleeve is used to prevent damage to the cylindrical roller bearing inner ring. The correct installation of radial shaft seals is also practiced. Special bearing and seal installation tools; and removal tools are utilised. Price: $5,560 AUD + GST Workstation E - Mounting and adjusting Taper Roller Bearings in a 2-bearing housing. Workstation E gives training on the correct procedures to mount bearings using a portable induction heater, as well as accurate adjusting of tapered roller bearing clearance. Installing radial shaft seals is also demonstrated. Special bearing and seal installation and removal tools are utilised. Price: $8,270 AUD + GST Workstation B - Correct mounting of small size self-aligning bearings on adapter sleeves. This workstation allows you to correctly mount and dismount a Self Aligning Ball Bearing and a CARB Toroidal Roller Bearing on adapter sleeves, using the lock nut tightening angle method. The correct procedure to install V-ring seals is also practised. Price: $2,230 AUD + GST Workstation D - Mounting labyrinth seals and taconite seals in split plummer block housings. Price: $1,670 AUD + GST This exercise gives training in the correct procedures to install taconite and labyrinth seals. Workstation F - Mounting bearings with tapered bores using the hydraulic drive-up method. The latest technique on mounting and dismounting medium to large bearings with tapered bores is demonstrated with Workstation F. The hydraulic drive-up method is a reliable, quick and easy method that ensures accuracy when mounting these bearings. The dismounting method shows safe, easy and quick bearing removal. Price: $7,560 AUD + GST SKF Handbook 116 Workstation G - Mounting bearings on withdrawal sleeves using the hydraulic drive-up method. The latest technique on mounting and dismounting medium to large bearings on withdrawal sleeves is demonstrated with Workstation G. The hydraulic drive-up method is a reliable, quick and easy method that ensures accuracy when mounting these bearings. The dismounting method shows safe, easy and quick bearing removal. Price: $8,690 AUD + GST Workstation H - Mounting bearings with tapered bores using the radial clearance reduction method. This exercise gives practise in mounting Spherical Roller Bearings using the traditional clearance reduction method utilising feeler gauges for measuring; and an Impact Spanner for safe and easy lock nut tightening. Bearing dismounting is safely and easily achieved using hydraulic injection. Price: $6,120 AUD + GST

CONDITION MONITORING Products Introduction to Solutions E-Learning Basic Condition Monitoring Kit During operation, it is important to regularly inspect the condition of the bearing by performing basic condition monitoring measurements. These regular inspections will allow the detection of potential problems and help to prevent unexpected machine stops.this training tool kit introduces students to latest SKF technology in condition monitoring including Vibration, Temperature Sound, Visual Inspection and Electrical discharge currents. Price: $ POA Vibration Tachometer Endoscope Endoscope Short Courses Industry Specific Application Specific Temperature Sound Visual Inspection Living Program Advanced Condition Monitoring Kit This kit is ideal for classroom study. The vibration analysis kit may be used to demonstrate various vibration phenomena (like unbalance, misalignment, bearing failure on demo rotor) and the results can be captured/viewed on SKF Microlog GX vibration analyser Motor System Reliability Product & Software Upgraded advance kit includes: 1. Microlog GX System 2. Demo Rotor Kit 3. Self Learning Tools (SLT) and 2 4. Vibration. Diagnostic Chart 5. Bearing analysis using acceleration 6. Enveloping technique CD Price: $ POA Balancing Kit The Balancing Kit includes: 1. Microlog Advisor Pro with Balancing module 2. Optical phase reference kit 3. Self Learning Tools (SLT) Level 5 4. Vibration Diagnostic Chart 5. Demo Rotor Kit Price: $ POA SKF Handbook 117

SHAFT ALIGNMENT Products Laser Alignment is faster and more reliable Easy-Laser Shaft Alignment Kit: Today, most industries in Australia are using laser based techniques for shaft alignment of machinery. Easy-Laser products are: EASY to use EASY to learn Up to 5 times FASTER than dial gauges All calculations are carried out in the display unit then saved for documentation, and uploaded to a PC. E710 Wireless Bluetooth Series SKF TKSA Alignment Kit SKF has developed a training kit for Shaft and Belt Alignment PLUS additional tools and supporting material to make your task easier. The kit includes the following options: The Base kit includes: SKF TKSA 60 or SKF TKSA 80 Laser Shaft Aligment kit course in PowerPoint format CD's Plus options: SKT TMEB2 Pulley Alignment kit Demonstation rigs for use with the TKSA and TMEB/D90 D90 Pulley Alignment kit SKF Belt Frequency Meter The TKSA 60 Quick, easy and wireless. The TKSA 80 Step by step expertise guidance SKF Handbook 118

ELECTRIC MOTOR DIAGNOSTICS Products Practical Dyno Kit This kit is designed to emulate load and off load conditions on a three phase motor on a variable speed drive for diagnosis, using the Baker Online Explorer Instrument. The Explorer Online instrument is able to accurately monitor the motor power circuit, overall health, load and performance issues. The kit includes: 1. 3 Phase Electric motor 2. Variable frequency drive 3. 240Volt Input 415Volt Output 3 phase supply 4. EP-2 Current transformer remote connection system 5. Base plate and power leads 6. Baker Explorer 4000 Price: $POA Introduction to Solutions E-Learning Short Courses Industry Specific Application Specific Living Program Practical Fault Finding Kit This kit is designed to offer full electric motor diagnostics with the Baker Off-line Explorer Instrument. The kit focuses on insulation condition and degradation rates. This testing helps the maintainer realise the true condition of the motors condition and insulation system leading to better predictive maintenance and reduced down time through breakdowns. This Baker Off-Line Instrument performs the following tests to determine condition Resistance Di-Electric Absorption Meggar Value Hi-pot Polarisation Index Surge Testing Step Voltage The kit includes: 1. Electric Motors 2. Coils built in for student diagnosis 3. Baker Advanced winding analyser (4 KV) Motor System Reliability Product & Software Price: $POA SKF Handbook 119

SmartStart Technology SmartStart on-site product start-up training SmartStart is an on-site product start-up service that focuses on a specific product or system. It is designed to get that product up and running, your employees trained, and your program implemented quickly and effectively. The training takes the form of mentoring and classroom instruction, and the site instructor will offer guidance in applicable product and/or database optimisation and functionality. Where is SmartStart training conducted? is conducted at your site, in your training facility, using your computers and SKF purchased hardware and/or software. How is SmartStart training conducted? SmartStart instructors will provide you with real world application expertise by using your actual plant applications and requirements. The training is designed to take the form of mentoring rather than traditional classroom instruction. The site instructor will offer guidance in applicable product and/or database optimisation and functionality. Furthermore, the instructor will offer insightful, pragmatic information that will provide you with powerful tools for predictive maintenance requirements. What equipment do I need for this course? Clients need to provide a suitable training room with an LCD data projector, projection screen, and white board or flip chart. Clients are also required to have all course related SKF products and equipment (hardware and software) available to the participants at the time of training. WICM232 MARLIN /Microlog Inspector and SKF @ptitude Analyst Inspector Course description Course topics are organised according to the steps necessary to operate the product. Setup and utilise the MARLIN/Microlog Inspector Condition Detector (MCD) as a standalone probe to monitor overall machinery and bearing vibration and temperature Installation and use of MARLIN/Microlog Inspector Quick Connect studs Set up and utilise the MARLIN/Microlog Inspector data manager to monitor and record machinery condition and plant process data Use the MARLIN/Microlog Inspector data manager to review data in the field Build a MARLIN/Microlog Inspector measurement database using SKF @ptitude Analyst Inspector software Transfer data between SKF @ptitude Analyst Inspector and the MARLIN/Microlog Inspector data manager Display and generate trends and reports SKF continues to add new MARLIN/Microlog Inspector hardware and software platforms. The SmartStart program will be tailored to match customer specific systems and requirements SKF Handbook 120 Time 8.30am 4.30pm 2 days Course Fee $825 AUD + GST Public Work Identification Course fee is per person for a Public course. Contact SKF for Onsite course fees. Refer to Enrolment Form on page 125.

SmartStart Technology Introduction to Solutions E-Learning WICM264 AX/GX Series Microlog and SKF @ptitude Analyst WICM270 Online Systems and SKF @ptitude Short Courses Course description Course topics are organised according to the steps necessary to set up a portable monitoring system and to operate the SKF Microlog AX/ GX SKF @ptitude Analyst software product. Course Objective Participants will learn how to design and build an effective online system vibration measurement database, download measurements to online system local monitoring units, understand online system data collection processes, display and analyse the online system Event Log and online measurement data plots for detection and analysis purposes, and generate online system reports. Condition monitoring training topics Condition based Maintenance Program Overview Course Description Designed for maximum class participation, this Guidelines for Implementing a Portable Condition course is divided into sections that are viewed Monitoring Program practical guidelines for with presentations, computers practice, and implementing a portable condition monitoring reviewed with hands-on group exercises and program written reviews. Introduction to Vibration Analysis Discuss the SKF @ptitude Online Hardware System (H/W), advantages of various vibration signal processing concept, product structure, and applications techniques to isolate and detect specific machinery faults (e.g., acceleration enveloping signal processing for early detection of bearing faults) SKF product training topics Set up default properties on the SKF @ptitude Analyst software Learn to navigate the software using its menus, dialogs, windows, hierarchy, terminology, workspaces How to create a database of vibration measurements Download and upload measurements between SKF System checkout and troubleshooting procedures Software installation and setup Hardware and software requirements Windows system settings and installation options Installing SKF @ptitude Online H/W System Operation and theory Database configuration: ideology, application and best practices Parametric Gating and Control Points software and the AX/GX Microlog data collection Online data collection process device Measurement process and Heartbeat concept How to set up default properties in DAD communication and live data collection the AX/GX Microlog process How to operate the AX/GX Microlog data collector/ Displaying Online data plots analyser to collect both route and off-route measurements Generating and printing data reports Generate graphic plots and reports for analysing measured machinery condition (both software and Time 8.30am 4.30pm AX/GX Microlog) Advanced AX/GX Microlog application modules, multiple channel measurements, FRF measurements, balancing Course Fee 3 days $950 AUD + GST Public Work Identification Time 8.30am 4.30pm Course fee is per person for a Public course. Contact SKF for Onsite 3 days course fees. Refer to Enrolment Form on page 125. Course Fee $950 AUD + GST Public Work Identification Industry Specific Application Specific Living Program Motor System Reliability Product & Software Course fee is per person for a Public course. Contact SKF for Onsite course fees. Refer to Enrolment Form on page 125. SKF Handbook 121

SmartStart Technology WECM250 Balancing with an SKF Microlog WECM245 Easy-Laser Shaft Alignment Systems Course Objective This course is designed to understand and practice how to successfully balance common rotating machinery in the field to precision levels using any SKF Microlog data Collector/Analyser. Course Description Course topics are organised according to the steps necessary to operate the product Understand the three common types of unbalance (static, couple and dynamic) Differentiate field and shop balancing tolerances Identify the correct approach to use based on the machine s L/D ratio, amplitude and phase readings, and response to the trail weight Perform single and two plane balancing Combine and split correction weights Understand lag angle and influence coefficients Appropriate real-world case histories will be used to illustrate balancing techniques for applications such as: fans, overhung and between bearings, paper rolls, flails, augers and hammermills, cooling tower fans, fin fans and turboprop, and multi-stage pumps Time 8.30am 4.30pm 2 days Course Fee $825 AUD + GST Public Work Identification Course fee is per person for a Public course. Contact SKF for Onsite course fees. Refer to Enrolment Form on page 125. Course Content 1) Review Shaft alignment/pulley alignment theory: - Angular and offset misalignment - Alignment tolerances. - Dial gauge alignment v/s laser alignment processes 2) Setting up the system: - Review the Shaft alignment system purchased - Application programs - Components of the system 3) Taking measurements: - Conducting a rough alignment - Alignment procedures - The clock method. - Easy turn method (not using D450 model) - Result evaluation and machine adjustment - Feet values - Coupling values - Managing the measurements in alignment software and producing a final alignment report. - Summary and questions. 4) Practical exercises using Easy-Laser Shaft Alignment Products 5) Introduction to geometrical measurement - Including flatness, straightness, squareness Course Objective This course focuses on the step by step procedures for using any Easy-Laser Shaft Alignment product. Plus groove and face mounted pulley alignment products. Time Course Fee 8.30am 4.30pm 1 Day $825 AUD + GST Onsite & Public Work Identification Course fee is per person for a Public course. Contact SKF for Onsite course fees. Refer to Enrolment Form on page 125. SKF Handbook 122

Introduction to Solutions E-Learning Short Courses Industry Specific Application Specific Living Program Motor System Reliability Product & Software We avoided costly shutdowns We never really understood what we could get out of condition monitoring until our staff attended the SKF training course. Now, we have a full understanding of the health of our equipment at all times, and we ve avoided several really costly shutdowns using SKF data collection tools. SKF Handbook 123

SKF Reliability Cell Program Program Overview SKF Reliability Cell Program is designed to greatly help customers in employee competence development by setting up training facility at customer site equipped with a wide range of training equipment and demo rigs of latest technology as well as SKF expert training resources. The Program will provide a unique and excellent opportunity for customer employees to attend hands-on training workshops as well as to facilitate knowledge sharing in the field of bearing maintenance and condition monitoring. Program Set-up The set-up of this Program consists of two aspects. One is the physical training facility setup at customer site which mainly include training equipment and demo rigs. The other is the packaged training solution delivered by SKF experts at this training center to pre-established schedule agreed upon with the customer. The training facility set-up is composed of three parts and aimed to provide customer employees with easy access to hands-on exercises and to facilitate organized on-site training. Bearing Technology and Machine Maintenance SKF TMDS series Mounting Star Lubrication Tools including lubricating gun and automatic lubricator set Shaft alignment rig Display kits, including bearing and power transmission products Basic Condition Monitoring Handheld portable tools for condition monitoring, including stroboscopes, infrared thermal cameras, vibration analyzers, ultrasounds, endoscope, belt tension tester, belt & pulley gauges, seal kit, and Machine Condition Advisor etc. Advanced Condition Monitoring SKF Microlog Consultant CMXA 48 which offers a sophisticated range of diagnostic options including in-the-field analysis, machinery diagnostics, and production line testing in a compact, rugged hand held computer The training package, as an integral part of this Reliability Cell Program, is designed to help customers build up the competence of maintenance workforce in a systematic and well planned way. It is composed of the following courses enhanced by the training facility set-up described above. WE201 Bearing Technology and Maintenance WE203 Introduction to Lubrication Fundamentals WE204 Root Cause Bearing Damage Analysis WE240 Precision Shaft Laser Alignment WI201 Condition Based Maintenance Program Customisation and Implementation SKF Solutions is dedicated to developing training programs that cater to customer s specific needs. The Reliability Cell Program is fully customisable to target at weak areas in customer employee competence metrics. Based on the unique situation of each customer, the Program can run from 1 year to up to 5 years, and to sustain the knowledge sharing and transfer, SKF can also help customers build up own in-house trainer team through Train the Trainer program. SKF Handbook 124 SKF Handbook 124

Enrolment form REGISTER NOW Complete your details and fax back to SKF Department Fax: (Australia) 61 3 9269 0886 (New Zealand) 64 9 273 8513 Standard Course Fee DELEGATE DETAILS Name Email Name Email Name Email Name Email Contact SKF Department: (Australia) 61 3 9269 0763 (New Zealand) 0800 705 705 Email: training.australia@skf.com Location: Date: / / Premier Plus Savings Bring 3 or more delegates to the course and benefit from a 7% saving. (cannot be used in conjunction with any other offer) UP-SKILL Membership Programs Please ask for details. Job Title Contact No Job Title Contact No Job Title Contact No Job Title Contact No Early Bird Savings A limited number of early bird seats are available. Please ask for details. Company Name Address City State Postcode Tel ( ) Fax ( ) AUTHORISATION Signatory must be authorised to sign on behalf of contracting organisation Name of Authorising Manager Position Signature Date / / TERMS AND CONDITIONS METHOD OF PAYMENT Cheque - Made payable to SKF Australia Pty Ltd Mailing address - SKF Reliability Systems, PO Box 301, Oakleigh VIC 3166 Company Order No VISA MasterCard American Express Credit Card No. AMEX Security Code Card Holder s Name Signature Exp Date / 1. Enrolment: Enrolments will be confirmed in writing prior to the course commencement date and are subject to: (1) receipt of the completed enrolment form; (2) payment prior to course date, or receipt of purchase order from approved Corporate Accounts. Enrolment can be made by faxing the form to SKF Department on (Australia) 61 3 9269 0886 or (New Zealand) 64 9 273 8513. 2. Fees: Course fees are inclusive of course materials and refreshments. Contact SKF Department for group savings. To qualify for a VIP saving, please quote your UP-SKILL VIP membership number. 3. Cancellation/Substitution: Cancellation will only be accepted in writing and acknowledged by SKF. Cancellation is free of charge when received at least 3 weeks prior to course commencement. Between 1-3 weeks before the course commencement date, 50% of the training fee will be charged. Thereafter, full course fee is payable and is non-refundable. Suitable substitutes are welcome. 4. Copyright: All intellectual property rights in all materials produced or distributed by SKF in connection with this course is expressly reserved and any unauthorised duplication, publication or distribution is prohibited. 5. Important notice: SKF reserves the right to change course schedules, discontinue courses, modify course content, limit class size and cancel courses as it deems necessary without penalty. SKF Handbook 125

SKF AUSTRALASIA - PRIMARY LOCATIONS SKF AUSTRALIA - HEAD OFFICE 17-21 Stamford Rd OAKLEIGH, VIC 3166 Ph: 61 3 9269 0800 Fax: 61 3 9269 0886 SKF AUSTRALIA - SOLUTION FACTORY 463 Orrong Rd WELSHPOOL, WA 6106 Ph: 61 8 6258 6000 Fax: 61 8 6258 6060 SKF NEW ZEALAND - HEAD OFFICE 3/24 Bishop Dunn Place FLATBUSH, AUCKLAND Ph: 0800 705 705 Fax: 64 9 273 8513 The Power of Knowledge Engineering Drawing on five areas of competence and application-specific expertise amassed over more than 100 years, SKF brings innovative solutions to OEMs and production facilities in every major industry worldwide. These five competence areas include bearings and units, seals, lubrication systems, mechatronics (combining mechanics and electronics into intelligent systems), and a wide range of services, from 3-D computer modelling to advanced condition monitoring and reliability and asset management services. 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SKF Group 2015 The contents of this publication are the copyright of the publisher and may not be reproduced (even extracts) unless prior written permission is granted. Every care has been taken to ensure the accuracy of the information contained in this publication but no liability can be accepted for any loss or damage whether direct, indirect or consequential arising out of the use of the information contained herein. PUB THB 2015-01 EN November 2015