Schaeffler UK Training Courses

Schaeffler UK Training Courses Improve your skills and knowledge on rolling bearing selection, operation and maintenance to improve machinery utilisation and reliability Schaeffler (UK) Ltd Forge Lane Minworth Sutton Coldfield West Midlands B76 1AP Email: info.uk@schaeffler.com Tel: 0121 313 5885 Web: www.schaeffler.co.uk PTC December 2014

Schaeffler UK Engineering Excellence Training that reflects the latest developments in rolling bearing technology and condition monitoring. Delivered by qualified engineers with a real passion for sharing their knowledge. Schaeffler UK is fully committed to providing you, our customer, with training courses that are focussed on meeting your individual requirements. From initial bearing selection and reliable operation in service through to correct maintenance and condition monitoring, our flexible approach means that our training courses can be personalised to your needs. The Schaeffler Group is recognised as a global leader in rolling bearing technology, and has acknowledged Schaeffler UK s technical excellence by awarding us with Schaeffler Technology Centre status. As a member of Schaeffler s Global Technology Network, our team of engineers has been accredited to the highest level of technological capability. This means that our training is delivered by qualified engineers with in-depth knowledge and experience of rolling bearing technology and condition monitoring. Our trainers have a real passion for sharing their knowledge and providing expert advice during the courses that we offer. Since our UK training facility was set up, we have been delighted with the positive feedback that we have received from our customers. We pride ourselves in understanding the needs of our customers and, through a process of continuous improvement, we have continually updated the content of our training courses to reflect the latest developments in rolling bearing technology and condition monitoring. We are convinced that we have the right training solution for your staff and we look forward to welcoming you to the UK Schaeffler Technology Centre. Richard Hall President Industrial Schaeffler UK PAGE 2 PAGE 3

Together we move the world Our Training Schaeffler UK has developed comprehensive training programs that address the needs of engineers involved in numerous aspects of rolling element bearings. From maintenance fitters to designers of complex rotating equipment, we have an effective training program to suit your needs. The Schaeffler Group is one of the world s leading engineering businesses, employing over 80,000 people at 180 locations worldwide and achieving global sales in excess of 11.2 billion (in 2013). The Group, which remains a family-owned concern, markets its products under three world class brands INA, FAG and LuK. INA was formed just after the Second World War and made its big breakthrough in 1949 with the invention of the needle roller and cage assembly. This product is still in use in its original form and the INA product range has been expanded to include ball and roller bearings, spherical plain bearings, housed units and linear bearings and systems. In addition to its bearing products, INA has developed into one of the world s foremost suppliers of automotive engine components and works in partnership with many automotive manufacturers to develop solutions to their requirements for more efficient, economical and environmentally friendly vehicles. The history of FAG dates back to 1883 and the development of a ball grinding machine which made it possible, for the first time, to produce a perfectly round steel ball. In the intervening years, the FAG product range has expanded to include cylindrical, spherical and tapered roller bearings, angular contact and deep groove ball bearings. The combined INA and FAG standard catalogue now comprises over 40,000 standard products for use in over 60 industrial sectors ranging from power transmission, mechanical handling, construction, mining and quarrying, steel and paper to automotive and aerospace. Support for these industries is provided by Schaeffler's Industrial Aftermarket Division (IAM) which develops and supplies a wide range of online and offline condition monitoring equipment designed to provide warnings of potential problems and to minimise unplanned plant and machinery shutdowns. IAM also supplies a wide range of specially developed maintenance tools and equipment. The Schaeffler Group maintains its leading edge by constantly developing products to meet the specific needs of its customers. To this end more than 5000 staff worldwide are directly involved in research and development, and, on average, their efforts result in over 2000 patent registrations per year (2013). located at Sutton Coldfield in the West Midlands, is the headquarters for all sales, marketing, engineering and logistics for both the INA and FAG brands in the UK. In-house and design engineers work with carefully selected distributors and direct with end users to deliver the best engineered and most cost effective solutions to each individual requirement. In addition, Schaeffler UK operates a manufacturing plant in Llanelli in South Wales, which is a world class facility for the production of mechanical tappets for the automotive industry. The plant also operates a Linear Quick Centre and provides refurbishment services for industry. Schaeffler training programs offer a comprehensive range of courses covering all aspects of machine reliability from bearing selection through to mounting and dismounting and maintenance including vibration analysis and condition monitoring. The benefits of training include: Increased plant efficiency through reduced downtime due to machinery problems Knowing what bearing to select and how to maximise machinery performance Gaining skills in mounting/dismounting of bearings and eliminating costly mistakes Obtaining a better understanding of maintenance requirements, including grease selection, quantity and relubrication intervals Learning how Condition Monitoring can improve plant utilisation and the techniques available Understanding how to use Vibration Analysis to monitor the performance of plant and equipment. What We Offer Training is delivered by highly skilled engineers with many years' experience in the design, and operation of rolling element bearings. We have specialists in vibration analysis and condition monitoring who can provide ongoing support and share their experience. While training takes the form of standard modules for ease of selection, the training can be tailored to meet the specific requirements of the customer. We would be very pleased to discuss your particular training requirements. We offer both basic and advanced training courses. Our courses are designed for a wide and varied audience, from Managers, Engineers and Technicians involved on a day-to-day basis in the selection and operation of rolling bearings through to maintenance professionals responsible for mounting the bearings on shafts and in housings and specifying the correct type and quantity of lubricant. The training is also of benefit to Condition Monitoring Engineers and Technicians who need to identify when plant and equipment is starting to go wrong and the reasons for these problems. Dr Steve Lacey Engineering Manager Schaeffler UK PAGE 4 PAGE 5

Our Facilities At the Schaeffler UK site in Sutton Coldfield, West Midlands, we have a full range of facilities to offer both classroom based and practical hands-on experience. If required we can also offer courses at your own premises. Training Courses Rolling Bearings Course Code Days Page Introduction to Rolling Bearings IRB 1 8 Rolling Bearing Technology RBT 2 9 Rolling Bearing Lubrication RBL 1 10 Rolling Bearing Failure Analysis RBFA 1 11 Rolling Bearing Mounting RBM 1 12 It was very well presented and the technical/practical mix was just right. The lads came away with a good understanding and have already started looking at what we do. The whole day provided food for thought and we came away with a number of actions and tasks so it was hugely beneficial. Matthew Orme Senior Mechanical Engineer, Mechanical Testing Support Lubrizol This is one of the best courses that I have attended. I found the amount of technical information included extremely useful. Pamela Phillips Asset Engineer Scottish and Southern Energy Applications Training Condition Monitoring Product Training Vibration Analysis Bearings for Electric Motors BFEM 1 13 Introduction to Condition Monitoring ICM 1 14 Detector III DIII 1 15 Vibration Analysis Level 1 VAL1 2 16 Vibration Analysis Level 2 VAL2 3 17 PAGE 6 PAGE 7

Rolling Bearings Rolling Bearings IRB Introduction to Rolling Bearings RBT Rolling Bearing Technology The course gives a basic introduction to rolling element bearings, covering types, basic functions, load directions and bearing fits. It covers the basic rating life calculation and influencing factors and provides a brief introduction to bearing lubrication, including grease quantities, relubrication intervals and life. A brief overview of typical bearing failure modes is included. The course gives a more in-depth description of rolling element bearings covering bearing types, load directions and bearing fits. It introduces the calculation of basic and adjusted life values and influencing factors and covers bearing lubrication, including grease quantities, relubrication intervals and life. A brief overview of typical bearing failure modes is provided. participants an overview of the key factors affecting rolling bearing selection and operation. It is intended to describe some of the main bearing types and give practical guidance on the selection and use of lubricating greases. Engineers, technicians and maintenance personnel who have some involvement with the specification or the operation of rolling bearings. The course is ideally suited to personnel with limited knowledge of the selection of rolling element bearings. Introduction to Bearing Types Ball and roller bearings Radial and axial loads Concept of misalignment Self aligning bearings Spherical roller bearings Dimension series and sections Tapered roller bearings Shaft and Housing Fits Tolerances Typical fits Bearing precision Bearing clearance Introduction to Bearing Life What life is required What affects bearing life Basic life calculation Dynamic equivalent load Static Load Capacity How to calculate static load capacity Index of static stress Lubrication Oil versus grease lubrication Initial grease selection Selecting the correct operating viscosity Grease lubrication - the correct amount Grease lubrication - relubrication interval Greases available from Schaeffler Bearing Failures Types of failure participants more in-depth knowledge of the factors affecting rolling bearing selection and operation. It is intended to describe some of the main bearing types and arrangements and covers life, lubrication and failure analysis. Engineers, technicians and maintenance personnel who require a more detailed understanding on the selection and operation of rolling bearings. The course is ideally suited to design or engineers who require in-depth knowledge of bearing design and operation. Introduction to Bearing Types Ball and roller bearings Contact pressure Radial and axial loads Concept of misalignment Self aligning bearings Spherical roller bearings Dimension series and sections Application examples Tapered roller bearings Bearing Arrangements Locating, semi-locating and non-locating Shaft and Housing Fits Tolerances Initial bearing radial internal clearance (RIC) Mounted RIC Operating RIC - effects of temperature Bearing Friction Sources of friction Stribeck curve Load and viscous friction Heat Generation Bearing temperature Heat dissipation Introduction to bearing life Bearing Life Basic life calculation Adjusted life Expanded adjusted life Fatigue load limit Dynamic equivalent load Fatigue failure - subsurface Fatigue failure - surface initiated Lubrication Basic concepts of friction Oil versus grease lubrication Initial grease selection Important points to consider Selecting the right base oil Selecting the correct operating viscosity Grease lubrication - the correct amount Grease lubrication - relubrication interval Grease data sheet Grease operating life - calculation Bearing Failures Why do bearings fail? What is fatigue? Types of failure Introduction to Rolling Friction Rolling versus sliding friction Coefficient of friction Basic concepts - boundary, mixed and fluid friction Friction and temperature 295 per person 100 per person Introduction to Rolling Friction Rolling versus sliding friction Coefficient of friction Basic concepts - boundary, mixed and fluid friction Friction and temperature Days 2 550 per person 200 per person PAGE 8 PAGE 9

Rolling Bearings Rolling Bearings RBL Rolling Bearing Lubrication RBFA Rolling Bearing Failure Analysis This course covers the fundamentals of bearing lubrication including both oil and grease, with an emphasis on grease lubrication. The course will explain the need to select the correct lubricant for the and describe how the bearing operating parameters such as speed, load and temperature influence the lubricant selection. The importance of viscosity and providing the right quantity of lubricant is explained. The course covers the fundamentals of bearing failure modes and analysis and shows how to identify the more common failures through knowledge of the load patterns on the bearing raceways and rolling surfaces. It provides an understanding of where things go wrong and why and knowledge of preventive methods, particularly during assembly of bearings in the housing and on the shaft. The aim of the course is to help participants understand the fundamentals of bearing lubrication and why selecting the right type and quantity of lubricant is vital in order to maximise bearing life. It is intended to show the importance of viscosity and how failure to meet the necessary cleanliness can severely impact bearing life. Engineers, technicians and maintenance personnel responsible for bearing selection, bearing lubrication specification and selection and lubrication system design and management. Introduction to Rolling Friction Rolling versus sliding friction Coefficient of friction Basic concepts - boundary, mixed and fluid friction Friction and temperature Introduction to Bearing Life What life is required What affects bearing life Basic life calculation Dynamic equivalent load Fatigue failure Fatigue load limit Bearing Life Basic rating life What is L10 life? Adjusted rating life Expanded adjusted rating life Lubrication Basic concepts of friction Oil versus grease lubrication Selecting the right base oil Selecting the correct operating viscosity Grease Lubrication Types of grease Selecting the correct grease Initial grease selection Important points to consider Grease lubrication - the correct amount Grease lubrication - relubrication interval Greases available from Schaeffler Grease data sheet Grease Operating Life Influencing factors How to calculate grease life Example calculation Bearing Failures Why do bearings fail? What is fatigue? Types of failure 295 per person 100 per person participants the knowledge required to recognise reasons for failure from the load patterns on bearing rolling surfaces and to perform damage analysis, understand terminology and recognise the appearance of different types of damage. Engineers, technicians, fitters, apprentices, maintenance personnel and Condition Monitoring personnel. The course is ideally suited to personnel who require a basic understanding of bearing failure modes. Introduction to Rolling Bearings Rolling versus sliding friction Coefficient of friction Basic concepts - boundary, mixed and fluid friction Friction and temperature What affects bearing life Basic life calculation Dynamic equivalent load Fatigue failure Fatigue load limit Static Load Capacity Dynamic load capacity Static load capacity Index of static stress Bearing Failures Why do bearings fail? Incorrect fitting Fitting - the do's and don'ts Mounting methods General types of bearing failure Raceway markings Damage and failure overview Basic rating life Subsurface fatigue Surface initiated fatigue Types of wear Fretting corrosion Contamination Water contamination False brinelling Brinelling Fatigue fracture Practical experience Hands-on experience 295 per person 100 per person Sutton Coldfield PAGE 10 PAGE 11

Rolling Bearings Applications Training RBM Rolling Bearing Mounting BFEM Bearings for Electric Motors The course provides an understanding of how to get the most from machinery by ensuring that the correct methods and procedures are in place for the mounting of bearings. It also gives guidance on how to avoid the simple mistakes often made during assembly and understand where problems occur and why. It describes preventive methods that can be used, particularly during assembly of bearings in the housing and on the shaft. The course provides a thorough understanding of the types of bearings and bearing arrangements used in electric motors. It presents the considerations to be made during the selection process and covers the installation, lubrication and maintenance of bearings. participants a good understanding of the correct methods for mounting bearings in order to achieve the predicted bearing life. Following a short theoretical overview, the course will focus on practical training where the student will use various heating devices and mounting tools/methods. The intention is that participants will gain a good appreciation of best practice that can be implemented immediately to gain real benefits in terms of improved machinery performance. Personnel involved either directly or indirectly in the mounting or dismounting of rolling bearings. This may include engineers, technicians, fitters, supervisors, apprentices, maintenance personnel and Condition Monitoring personnel. Basics of Rolling Element Bearings Bearing types Bearing terminology Selection of bearing type and size Lubrication Types of lubricant and methods Importance of maintenance Mounting of Rolling Element Bearings The do's and don'ts Preparation Having the correct tools Working in the correct environment Cold mounting Hot mounting Using the correct tools Dismounting Practical Training Mounting of bearings using heating plate, induction heaters, adaptor sleeves Dismounting 295 per person 100 per person Sutton Coldfield participants an understanding of the fundamentals of bearing selection, lubrication and maintenance to maximise bearing service life in electric motors. Engineers, technicians and maintenance personnel responsible for bearing selection, operation and maintenance. This course may be particularly relevant to those in the Oil and Gas Industry. Introduction to Rolling Friction Rolling versus sliding friction Coefficient of friction Basic concepts - boundary, mixed and fluid friction Friction and temperature Overview of Bearing Types Types of bearing - ball and roller Load considerations Ball versus roller bearings Types of sealing Limiting speeds Bearing designations Bearing Life Basic rating life Bearing loads Dynamic load capacity Static load capacity Adjusted rating life Expanded adjusted rating life Typical Bearing Arrangements Locating and non-locating bearings Adjusted bearing arrangements Compensating for axial thermal shaft expansion Bearing Failures Why do bearings fail? Types of failure - fatigue, contamination and skidding Skidding - minimum load Current insulated bearings Lubrication Basic concepts of friction Oil versus grease lubrication Coefficient of friction Grease operating life Grease Lubrication Types of grease Selecting the correct grease Initial grease selection Bearing friction torque Important points to consider Grease lubrication - the correct quantity Grease lubrication - relubrication interval Greases available from Schaeffler Grease Lubrication Methods Manual and automatic systems FAG lubricators Bearing Mounting and Maintenance Fitting - general considerations Do's and don ts Brinelling and false brinelling Manual assembly methods Mechanical and hydraulic presses Mounting sleeves and tools Shaft and Housing Fits Interference and clearance fits Fretting corrosion Axial and radial clearance Bearing radial internal clearance Maintenance Products Heaters Mounting/dismounting tools Laser alignment Condition monitoring 295 per person 100 per person PAGE 12 PAGE 13

Condition Monitoring Product Training ICM Introduction to Condition Monitoring DIII Detector III The course covers the fundamentals of noise and vibration, starting from the basic concepts, and gives an introduction to Fast Fourier Transform (FFT) as a diagnostic technique. Some practical examples and case histories are presented to show how vibration analysis can be used to solve problems. The course provides a basic introduction to the use and operation of the FAG Detector III vibration data collector, comprising a solid foundation in the configuration and use of the Detector III including how to set up routes. The course includes a basic introduction to vibration analysis. participants a basic understanding of how vibration monitoring can be used to detect and analyse some common machinery problems. This course is intended for engineers/technicians with limited knowledge of vibration analysis who wish to become more familiar with vibration based condition monitoring. Principles of Vibration Time signal Amplitude and frequency More complex time and frequency signals Vibration Measurement Considerations Sensor types and location Sensor mounting Selecting machinery to be monitored Vibration Measurement ISO guidelines Assessing vibration severity Trending Spectrum analysis Data Acquisition Analogue to digital conversion Spectrum resolution Complex signals Beat frequency and amplitude modulation Demodulation and envelope signal Frequency classification Spectral Analysis Spectral analysis - basics Sidebands Harmonics Damping Resonance Impacts Vibration Signal Processing Average, RMS, crest factor Spectrum analysis Enveloping Cepstrum Rolling Bearings Ball and roller bearings Kinematic zones Kinematic frequencies Types of defect and spectrum Typical Machine Problems Unbalance Misalignment Fundamental belt frequency Eccentricity Resonance Typical Rolling Bearing Faults Calculating defect frequencies Failure stages Measuring defect frequencies Types of damage and spectra Case Histories Examples of faults/defects and the resulting time data and frequency spectra Participative discussion of case histories 295 per person 100 per person Sutton Coldfield participants essential information on the use of FAG Detector III, covering basic operation, configuration and analysis and interpretation of results. Personnel who intend to use Detector III for monitoring machinery condition. Introduction What is Detector III? Advantages and limitations of Detector III Features of Detector III Vibration Basics Sinusoidal motion Displacement, velocity and acceleration Time and frequency domain More complex signals Signal Processing and Signal Analysis Harmonics Low and high pass filters Amplitude modulation and demodulation Resolution in the time and frequency domain Characteristic values Trending Faults in Machinery Rotating and impact forces Bearing defect frequencies Gear frequencies Resonance Simplified defect frequency patterns Detector III Measurements Principles of operation Filters, number of lines and resolution Characteristic values Crest factor Temperature, speed and trigger Sensors Accelerometers Mounting methods Frequency response and sensitivity Maintenance Machine life cycle Maintenance strategies Benefits of condition monitoring Getting Started Getting started - system requirements Connections on Detector III Trendline structure Plant structure - paths and routes Creating a new path How to configure a measuring point Significance of a trend measurement Connecting and measuring with Detector III Displaying measured data on PC Machine classes, ISO 10816 Practical Task Simple exercise to configure Detector III and measure vibration Use of available tools with the Viewer Signal analysis using FFT, cursor functions, harmonic and sideband cursor Advanced Monitoring Planning the measurement Setting low pass filters Number of lines in spectrum Selecting bearings from the database Pre and main alarms What to do if an alarm occurs Options in Viewer Example of defect bearing Reporting Up to 5 delegates 1,000* * Please note - this course is for those who have already purchased a DIII kit PAGE 14 PAGE 15

Vibration Analysis Vibration Analysis VAL1 Vibration Analysis Level 1 VAL2 Vibration Analysis Level 2 The course covers the fundamentals of noise and vibration, starting from the basic concepts, and gives an introduction to Fast Fourier Transform (FFT) as a diagnostic technique. Some practical examples and case histories are presented to show how vibration analysis can be used to solve problems. The course gives comprehensive and detailed coverage of the principle and of vibration analysis and its role in investigating machinery defects. The investigation of machinery defects and their associated time waveforms and spectra is described. Some aspects of signal processing and data collection are also covered. Case histories are considered in a participative manner. participants a basic understanding of vibration analysis and how it can be used to monitor the performance of plant and equipment. The course is suitable for engineers/technicians or maintenance staff entering the field of PCM (Plant Condition Monitoring) but who have limited relevant experience. It will also be useful to other professionals who would like to understand condition monitoring with a focus on vibration analysis. Principles of Vibration Motion, RMS/peak/peak-peak, frequency/period Displacement, velocity and acceleration Units and unit conversion Time and frequency domain - sinusoid Time and frequency - more complex signals Harmonics in time and frequency Basic Vibration Analysis Low and high pass filters Amplitude modulation Demodulation Resolution in time and frequency Filters and lines (Detector III) Characteristic values and trends Spectrum analysis: Harmonics, sidebands and the analysis process Alarm limits, trending and exception reports Fault diagnosis: Unbalance, misalignment, looseness, eccentricity, resonance Defects associated with bearings, gears, belts, electric motors Defect Frequencies Rolling element bearings Kinematic frequencies Defect frequencies Simplified FFT patterns Sensors Accelerometer Correct mounting Sensor selection ISO 10816 Machine classes Case Histories Examples of defects and associated time signals and frequency spectra Days 2 550 per person 200 per person The aim of the course is to provide participants having some experience of vibration analysis with more detailed knowledge and experience of the subject. Engineers/technicians involved in PCM (Plant Condition Monitoring) with six to nine months' experience of vibration analysis and data collection who wish to expand their knowledge and experience and who wish to perform machinery vibration measurements. As a prerequisite for attending this course, participants must already have completed the Level 1 course VAL1. Principles of Vibration Complete review of basics Waveform, spectrum (FFT), phase and orbits Understanding signals Data Acquisition Analogue to digital conversion Spectrum resolution Complex signals Beat frequency and amplitude modulation Demodulation and envelope signal Frequency classification Types of Vibration Deterministic, stochastic Damping Resonance Impacts Vibration Measurements Placement of sensors Rolling Bearings Ball and roller bearings Kinematic zones Kinematic frequencies Types of defect and spectrum Belt Drives Types Fundamental belt frequency Eccentricity Misalignment Resonance Gearboxes Gear mesh frequency and sidebands Sensor position Types of damage and spectra Other Sources of Vibration Shaft unbalance Couplings Blade pass frequency Resonance Mechanical looseness Successful Condition Monitoring Program Setting baselines and alarm limits Report generation, reporting success stories Case Histories Examples of faults/defects and the resulting time data and frequency spectra Participative discussion of case histories Days 3 650 per person 300 per person PAGE 16 PAGE 17

TRAINING CALENDAR 2015 JANUARY Mon 5 12 19 26 Tue 6 13 20 27 Wed 7 14 21 28 Thur 1 8 15 22 29 Fri 2 9 16 23 30 FEBRUARY Mon 2 9 16 23 Tue 3 10 RBL 17 24 Wed 4 11 18 25 Thur 5 12 19 26 Fri 6 13 20 27 RBFA MARCH APRIL Mon 2 9 16 23 30 Tue 3 10 17 24 VAL1 31 Mon 6 13 20 27 Tue 7 14 21 RBT 28 Wed 4 11 18 25 Thur 5 IRB 12 19 26 Fri 6 13 20 27 VAL1 Wed 1 8 15 22 RBT 29 Thur 2 9 16 23 30 Fri 3 10 17 24 MAY JUNE Mon 4 11 18 25 Mon 1 8 15 22 29 Tue 5 12 19 26 Tue 2 9 16 23 BFEM 30 Wed 6 13 20 27 Wed 3 10 17 24 Thur 7 14 ICM 21 28 Thur 4 11 RBM 18 25 TRAINING CALENDAR 2015 Fri 1 8 15 22 29 JULY Fri 5 12 19 26 AUGUST COURSE KEY Mon 6 13 20 27 Mon 3 10 17 24 31 Rolling Bearings IRB RBT RBL RBFA Introduction to Rolling Bearings Rolling Bearing Technology Rolling Bearing Lubrication Rolling Bearing Failure Analysis Applications Training BFEM Bearings for Electric Motors Condition Monitoring ICM Introduction to Condition Monitoring Product Training Vibration Analysis VAL1 VAL2 Vibration Analysis Level 1 Vibration Analysis Level 2 Tue 7 14 21 28 Wed 1 8 RBT 15 22 29 Thur 2 9 RBT 16 23 30 Fri 3 10 17 24 31 SEPTEMBER Tue 4 VAL2 11 18 25 Wed 5 VAL2 12 19 26 Thur 6 VAL2 13 20 27 Fri 7 14 21 28 OCTOBER RBM Rolling Bearing Mounting DIII Detector III (available on request) Mon 7 14 21 28 Tue 1 8 15 22 IRB 29 Mon 5 12 19 26 Tue 6 13 20 27 COURSE COSTS TERMS AND CONDITIONS Wed 2 9 16 23 30 Wed 7 14 RBL 21 28 VAL1 1 Day Course 295 per person 1-4 delegates 2 Day Course 550 per person 1-4 delegates 3 Day Course 650 per person 1-4 delegates Prices are exclusive of VAT. 100 per person/day 1. Delegate places can only be confirmed once a purchase order has been submitted to Schaeffler UK for the full course value. 2. Courses must meet a minimum number of delegates in order to run. You will be informed no later than 2 weeks prior to a course start date whether the minimum course number has been met. 3. All course cancellations must be made in writing no less than 2 weeks prior to a course start date. 4. There is no charge for a course transferred up to 21 days prior to a course start date. All transfer requests must be made in writing. 5. Off-site courses are available upon request with additional expenses. Prices will be provided upon. CONTACT US For more information please contact T: 0121 313 5885 E: info.uk@schaeffler.com W: www.schaeffler.co.uk/uktraining Thur 3 RBFA 10 17 24 Fri 4 11 18 25 NOVEMBER Mon 2 9 16 23 30 Tue 3 10 RBM 17 24 ICM Wed 4 11 18 25 Thur 5 12 19 26 Fri 6 13 20 27 Thur 1 8 15 22 29 Fri 2 9 16 23 30 DECEMBER Mon 7 14 21 28 Tue 1 8 15 22 29 Wed 2 9 16 23 30 Thur 3 10 17 24 31 Fri 4 11 18 25 VAL1 PAGE 18

CALENDAR & ENQUIRY FORM To confirm your place on one of our courses, please complete the Enquiry Form overleaf and return to info.uk@schaeffler.com Alternatively, please call 0121 313 5885

Enquiry Form - Schaeffler UK Training Courses Please submit your completed Enquiry Form to our Communications and Marketing Department at info.uk@schaeffler.com Booking Details I am booking the course on behalf of a colleague / I wish to attend the course* Name: Company Name: Job Title: Email: Address: Postcode: Tel: Mobile: Purchase Order Number: Course Name: Course Code: Number of Delegates: Date: * Please delete as appropriate