MSC Training Catalogue 2015

Transcription

1 MSC Training Catalogue Archipelago, Lyon Way, Frimley, Surrey GU16 7ER Tel: +44 (0) Fax: +44 (0) [email protected] 1

2 About MSC Software... 4 Solutions... 4 Specialist for Acoustic calculations... 5 Specialist for material data and simulations of composites... 5 MSC Ecosystems... 6 Student Edition... 6 Research Assist Program... 6 FEA Masters Program... 6 Training... 7 Offering... 7 Registration... 7 Discounts... 7 MSC Learning Center... 7 Calendar... 9 Actran ACT101- Introduction into Actran Adams ADM701 - Basic Full Simulation ADM703a Advanced Modeling Elements and Techniques with Adams/Solver ADM703b Adams/Solver Theory: Achieving Robust, Converged Solutions ADM703c Writing User Subroutines in Adams/Solver ADM704a Advanced Parametric Model Building in Adams/View ADM704b Automating Tasks using Adams/View ADM710 - Flex Body Dynamics and Modal Stress Recovery using Adams ADM711 Control System Integration with Adams using MATLAB and Easy ADM730 Design of Experiments (DOE) and Stochastics (Monte Carlo) Analysis using Adams ADM740 Vehicle Modelling and Simulation using Adams/Car ADM750 Gear, Belt, and Chain Modeling with Adams/Machinery Digimat DIG201 - Digimat Standard Training Structural Engineering DIG201 - Digimat Standard Training Material Engineering Dytran DYT101 Explicit Structural Analysis Using Dytran DYT102 Explicit Fluid and Fluid-Structure Interaction Using Dytran Easy EAS101 - Easy5 Dynamic System Modelling Simulation and Analysis using Easy5 (Intro Class) EAS103 - Easy5 Modelling Simulation of Fluid Power Systems Using Easy EAS105 - Modelling Simulation of Gas Systems Using Easy Flightloads FLD120 Introduction to MSC Nastran Aeroelasticity using Flightloads and Patran Marc MAR101 Marc Introductory Course MAR102 - Marc/Mentat Advanced Course MAR103 Marc Experimental Elastomer Analysis

3 MAR106 Electromagnetic Analysis Using Marc MAR120 - Marc/Patran Introductory Course MAR299 - Marc Programming Course MSC Nastran NAS101 - Basic MSC.Nastran Linear Static, Normal Modes and Buckling Analysis NAS102 - MSC.Nastran Dynamic Basic Analysis NAS103 - Nonlinear Analysis NAS104 - Thermal Analysis with MSC.Nastran NAS105 - Practical Finite Element Modelling Techniques Using MSC.Nastran NAS106 - Superelement Analysis with MSC.Nastran NAS107 - Optimisation with MSC.Nastran NAS110 - Working with Custom MSC Nastran Solution Sequences using DMAP NAS120 - Linear Structural Analysis with MSC.Nastran and Patran NAS122 - Dynamic Structural Analysis with MSC.Nastran and Patran NAS123 MSC Nastran Implicit Nonlinear (SOL 600) Analysis NAS126 Explicit Nonlinear Analysis using MSC Nastran and Patran NAS400 - Implicit Nonlinear Analysis using MSC Nastran and Patran Patran PAT301 - Introduction to Patran PAT302 - Advanced use of Patran PAT304 Introduction to Patran Command Language (PCL) PAT318 - Durability and Fatigue Analysis using MSC.Fatigue PAT319 - Fatigue Analysis of Dynamically Responsive Systems using FEA PAT325 - Composites Analysis Using Laminate Modeller SimXpert SMX101 - Introduction to SimXpert SMX120 - SimXpert Linear Static Analysis SMX121 - SimXpert Motion Analysis SMX126 - Introduction to SimXpert MD Explicit Workspace SMX131 - SimXpert Templates Sinda SND501 - Network Thermal Analysis Using MSC Sinda SND502 - Thermal Analysis Using Patran with MSC Sinda SND503 - Spacecraft Thermal Analysis Using THERMICA V Contacts

4 About MSC Software Simulating Reality, Delivering Certainty MSC Software is one of the ten original software companies and the worldwide leader in multidiscipline simulation. As a trusted partner, MSC Software helps companies improve quality, save time and reduce costs associated with design and test of manufactured products. Academic institutions, researchers, and students employ MSC technology to expand individual knowledge as well as expand the horizon of simulation. MSC Software s engineering simulation technology is used by leading manufacturers for linear and nonlinear finite element analysis (FEA), acoustics, fluid-structure interaction (FSI), multi-physics, optimization, fatigue and durability, multi-body dynamics, and control systems simulation. The company s products accurately and reliably predict how products will behave in the real world to help engineers design more innovative products - quickly and cost effectively. MSC Software Corporation was formed in 1963 and was awarded the original contract from NASA to commercialize the finite element analysis (FEA) software known as Nastran (NASA Structural Analysis). MSC pioneered many of the technologies that are now relied upon by industry to analyse and predict stress and strain, vibration & dynamics, acoustics, and thermal analysis in our flagship product, MSC Nastran. Today MSC is a privately owned company of the Symphony Technology Group and provides an extensive range of CAE solutions. Solutions Over our rich history, MSC has developed or acquired many other well-known CAE applications including Patran, Adams, Marc, Dytran, Fatigue, SimXpert, SimDesigner, SimManager, Easy5, Sinda, and Actran. We are committed to the continued development of new CAE technology that integrates disciplines and technologies from standalone CAE tools into unified multi-discipline solvers and user environments. These next generation products enable engineers to improve the reliability and accuracy of their virtual prototypes by including multi-physics and multi-discipline interactions. MSC is also the CAE industry s leader in extending simulation to the engineering enterprise. Our customers recognize the need to scale the benefits of virtual prototyping and testing from pockets of experts to mainstream engineering and product development, and MSC offers the only Simulation Data and Process Management platform in the world that has been successfully deployed in industries including automotive, aerospace, shipbuilding, electronics, and more MSC Software employs 1,000 professionals in 20 countries. MSC Software makes products that enable engineers to validate and optimize their designs using virtual prototypes. Customers in almost every part of manufacturing use our software to complement, and in some cases even replace the physical prototype build and test process that has traditionally been used in product design. Structural Analysis and Finite Element Method (FEA) MSC Nastran: Solver for multidisciplinary simulation such as linear and nonlinear structure analysis in the areas of statics, dynamics, acoustics and optimisation. Marc: Solution for advanced nonlinear structural analysis, contact, complex material models and multiphysics analysis Multibody Dynamics (MBD) Adams: Solver for simulation mechanical systems Modelling Patran: Pre- and postprocessor for modelling, geometry manipulation and loads and boundary specification SimXpert: Integrated multidisciplinary work environment for modelling, calculating, result processing, report generation and automation Entry solutions MSC Nastran Desktop: Modular solution for structure analysis of any kind 4

5 FEA, AFEA, TFEA: Linear, nonlinear and thermal analysis SimDesigner: CAD-integrated, multidisciplinary simulation solutions Special Solutions MSC Fatigue: Calculation of endurance and lifespan Dytran: Simulation of structures and fluids in the short time dynamics area Sinda: Advanced thermal simulation Easy5: Advanced controls & systems simulation Simulation Data Management (SDM) SimManager: Web-based hardware independent system for the administration and automation of simulation data and processes MaterialCenter: Web-based Materials Lifecycle Management System for managing material models, data and processes with full tracebility Toolkits Advanced Wind Turbine Modelling (AdWiMo): Customised tool for modelling of wind turbines Adams Tracked Vehicle (ATV): Customised tool for modelling of tracked vehicles Specialist for Acoustic calculations Free Field Technologies (FFT) develops and supports the Actran family of acoustic CAE products. Actran is a premier acoustics software solution for simulating acoustics, vibro-acoustics and aero-acoustics quickly, easily, and accurately. More information available at Specialist for material data and simulations of composites The company e-xstream is a specialist for micro mechanisms and multiscale simulation and concentrates on the calculation of composites. The Software Digimat is able to construct and simulate the reaction of non-linear composites. This is important for the users of Finite Element (FE) - Software as they want to determine the influence of the microstructure of a material on the stability of the end product. In combination with the simulation tools of MSC, e-xstream enables the simulation of a variety of materials. The core aspects lie within the exact determination of material failure, micro mechanic material calculation and non-linear, multi scalable structure modelling. More information available at 5

6 MSC Ecosystems Student Edition MSC Software's Student Editions provide students with the simulation tools to accurately and reliably predict how the designs will behave in the real world. Employers are constantly relying on simulation software to help eliminate slow and costly physical testing, and with experience right out of school, students will be ready to begin a career in no time! You can download free licences for MSC Nastran, Patran, Adams, Marc and SimXpert. All licenses can be downloaded in the student centre on the MSC Software website. Students will need to present an electronic copy of a valid student ID. More information available at Research Assist Program The MSC Software Research Assist Program is a new ecosystem development program aimed at stimulating innovation within research and academic communities. Our mission is to collaborate with passionate researchers around the world to persistently explore the horizon of engineering simulation together. By applying simulation methods in new ways, we can jointly develop the technology and products of tomorrow. More information available at FEA Masters Program MSC has partnered with UNED, Spain's largest online university to offer you the chance to obtain an advanced degree in Finite Element Method and CAE Simulation. The National Distance Education University (UNED) is the leader in the implementation of cutting edge technologies applied to distance learning with over 205,000 students worldwide. It is one of the largest universities in Europe. The course is designed to help you acquire knowledge, develop critical thinking and analytical skills at every stage of your program. It helps prepare you for the multidisciplinary challenges you will face in the new global economy, and position yourself for professional recognition, increased pay and new roles at your current or future employer. More information available MSC Academic Learning Center MSC Software s Academic Learning center provides students, researchers, and professor s access to the entire curriculum of training courses for Adams and MSC Nastran via e-learning online training courses in the MSC Academic e-learning subscription. The subscription includes a named user account to the MSC Learning Center and access to training for a year from time of purchase. The subscription also includes updates for all training courses and additions of training courses for other MSC Software products. We are anticipating releasing e-learning courses for Marc and Patran throughout More information available at 6

7 Training Offering MSC offers basic and specialised training in the use of our simulation tools to maximize your investments in our software. Whether you need an introduction to our simulation tools or expert instruction in specialised applications, we offer the courses you want, with the expertise you deserve. The trainings in the UK will either be held in Chester or Frimley. Flexible Training Our Trainers will not only demonstrate the use of the software, they will also help you find the best solutions for your specific needs. To ensure this promise we offer three different types of training: Public Classroom Training All courses are available in our state-of-the-art classroom facilities and individual computer graphics laboratories at training centres throughout the world. Our courses place heavy emphasis on hands-on computer laboratory work to accelerate practical skills development for all MSC Software products. Training at Your Facility If you have a number of employees who need training, we offer the cost effective option of bringing our class to your facility. Available worldwide, onsite training is ideal for groups of engineers or those who need customised instruction on MSC products. To maximize productivity in the use of our simulation tools, instructors can tailor the curriculum with companyspecific or industry-specific examples, and address challenges and process issues familiar to attendees from your organization. Customised Courses If our standard seminar offerings do not meet your training requirements, MSC can develop a course or set of courses tailored to your specific needs. A customised course might include a combination of topics from several standard courses or specialised material not found in any of our standard seminars. MSC will work with your staff to design the course you need. Registration This Catalogue contains a selected range of courses that are offered in the United Kingdom. Some courses are already scheduled for any further queries or to book training please contact us at [email protected]. To ensure that we can plan our courses adequately please contact us and register no later than 14 days prior to the planed begin of the course. s mentioned below are per person and a minimum of three attendees are required for a public classroom training to go ahead. s for training at your facility or customised courses are negotiable. Discounts We offer discounts for companies who send more than one person to the same course on the same dates. Every additional person receives a 20% discount. MSC Learning Center The MSC Learning Center is for the engineer who quickly needs to be productive with MSC software technologies to simulate product designs, MSC now offers an online e-learning subscription so that you can get the training you need, anytime you need it! With e-learning subscriptions you get access to: MSC s training curriculums on-demand, on your own schedule and without travel via a computer, tablet, or smartphone. Reduce fees and increased access to training Access to the MSC Communities to engage with MSC subject matter experts for your training questions More information available at 7

8 The MSC Learning Center is for the engineer who quickly needs to be productive with MSC software technologies to simulate product designs, MSC now offers an online e- Learning subscription so that you can get the training you need, anytime you need it! The MSC Learning Center is designed to address our customer needs: Shortage of trained and qualified engineers with simulation skills Training that caters to various learning styles On-Demand Online training Increased access and decreased cost for training No travel accommodations or office leave with e-learning Certification Exams for validating simulation skills MSC Communities for trainees to collaborate with MSC Experts MSC e-learning subscription: Subscribers to the MSC e-learning Subscription will receive the following for 1 year from time of purchase: Value: Individual named user account for the MSC Learning Center Access to all training curriculums for Adams, Patran, Marc and MSC Nastran o Online courses are made up several modules o Each module contains lecture, demos, audio from subject matter experts, workshops, and review questions that prepare you for the exams Certification exams that, upon achieving a passing score, you will receive a certificate for and/or you can post to your public community profile Access to the MSC Communities that allow you to: o Ask MSC subject matter experts questions about training material o Collaborate within your company or with the broader MSC simulation community With access to the e-learning subscription you get unprecedented access to training with reduced fees and no need to travel or leave the office Using the traditional live instructor-led training approach, attending all of the courses in the subscription would cost in excess of 30k and 128 days not including travel If you are only interested in one course you still experience incredible savings o Average cost of a course is 1,400 and 3.5 days With the e-learning subscription you get access to 50 courses with over hours of training material that is guaranteed to improve your simulation skills Benefits: Gain insight and knowledge form MSC Experts Stay up to date with the latest features in MSC Software Products: Adams, Patran, Marc and MSC Nastran Learn best practices and efficient workflows for common procedures and simulations Refresh and/or gain new skill sets that can improve or save time in your day to day simulation and analysis tasks Or if you are in the middle of a project and need to gain insight on a new task or simulation method quickly drop into the MSC Learning Center to browse through the courses and topics of interest to quickly get up to speed to effectively and efficiently streamline your efforts on your project. Access to the entire curriculum of training courses for Adams, Patran, Marc and MSC Nastran Collaboration with simulation community through discussion forums Certification Exams prove proficiency in simulation skills and methods and MSC software product proficiency Configured Portals ability to add/manage custom The MSC e-learning Subscription content, curriculums, and certifications will be introduced in January, 2015: To ensure exceptional customer value for the initial subscribers, MSC is offering the subscription to the MSC Learning Center at an introductory price of 1,125 per named user. 8

9 Calendar 9

10 Actran ACT101- Introduction into Actran This seminar will cover the basic capabilities of Actran for Vibro-Acoustic and Aer-Acoustic application. Introduction Actran general organisation, introduction concepts, introduction modelling process and launching Vibro-Acoustic direct simulation Vibro-Acoustic modal simulation Fluid/Structure coupling Random excitations Composite materials Modelling prestress effects Aero-Acoustic simulations Aero-Acoustics general organisation Aero-Acoustics advanced Workshops Basic theoretical knowledge of acoustics is recomended. On Request 4 Days 1,600+VAT 10

11 Adams ADM701 - Basic Full Simulation This seminar will cover the basic essentials required to get new users up and running with Adams. Model Hierarchy Adams/View Interface Post Processing Co-ordinate systems Geometry Manipulation Measures Initial Conditions and Velocities Degree of Freedom Constraints Friction Modelling Motions Function Builder Forces Simulation Scripts Bushings Contact Sensors Design Variables Splines Simple Design Studies None Chester: Derby: Days 2,000+VAT 11

12 ADM703a Advanced Modeling Elements and Techniques with Adams/Solver This seminar is intended for moderately experienced Adams users wanting to expand their knowledge of advanced modeling elements and techniques in Adams/Solver. Advanced modeling elements are entities such as the discrete flex link in Adams/View, the general constraint (GCON) and the differential equation (DIFF) elements. The use of these elements with scripting & function expression logic, new SENSOR functionality and advanced function expressions in Adams/Solver will be discussed. Controlling model topology during simulation Differential equations for integrating quantities and describing system dynamics Implementing simple control algorithms Performing standalone Adams/Solver simulations in batch mode. Using Adams/Linear as a tool to inspect the system-level linear modes Implementing test data via splines Advanced simulation logic using SENSORs Complex constraints (GCON element) A working knowledge of Adams as covered in ADM701 On Request 1 Day 400+VAT ADM703b Adams/Solver Theory: Achieving Robust, Converged Solutions This seminar is intended for experienced Adams users wanting to expand their knowledge of Adams/Solver theory. An emphasis will be put on tying theoretical concepts back to Adams/Solver solution settings (ERROR, HMAX, SI2, MAXIT, etc.). Strategies for creating robust models and sensible solution control settings will be a focus of the course. The various phases of solution (statics, kinematics, dynamics) will be covered in detail and best practices for each will be identified. Mathematical descriptions of constraints, body and forces Theoretical workings of the static, kinematic and dynamic solvers in Adams Numerical Methods for root finding, explicit and implicit integration DEBUG/EPRINT interpretation for model debugging Error handling strategies for statics and dynamics Solver settings for robust static analyses Integrator settings for robust dynamics Solution convergence techniques Modeling best practices A working knowledge of Adams as covered in ADM701 and ADM703a. On Request 2 Days 800+VAT 12

13 ADM703c Writing User Subroutines in Adams/Solver This seminar is intended for experienced Adams users wanting to create Adams/Solver user subroutines. Initial setup with preexisting libraries is considered, followed by the types of Adams/Solver elements which can be over-ridden. Dealing with user input is considered along with usage of the many built-in utility subroutines. Querying Adams/Solver for system state information (displacements, velocities, forces, etc.) is covered in detail, followed by initialization (IFLAG) and differencing (DFLAG) considerations. Callback subroutine functionality is presented for easy detection of simulation events (convergence, simulation start/end, saving/reloading, etc.) and considerations for threadsafe computations are discussed. Students are expected to be comfortable with simple programming tasks in Fortran; this class does not provide a formal nor comprehensive introduction to the Fortran programming language. Using existing Adams/Solver libraries Element types to over-ride, what is to be calculated Inputs using the PAR array Interface differences between Fortran and C Querying system states using utility subroutines Handling initialization and differencing calculations Callback subroutines Threadsafe computation considerations A working knowledge of Adams as covered in ADM701 and ADM703a. Moderate knowledge of Fortran programming language. On Request 1 Day 400+VAT 13

14 ADM704a Advanced Parametric Model Building in Adams/View This seminar covers the process of building parametric models specifically for the use of design sensitivity and optimisation studies. Parametric Modelling Parametric Functions Expression builder Design Study Design of Experiments Optimisation A working knowledge of Adams as covered in ADM Days 800+VAT ADM704b Automating Tasks using Adams/View This seminar covers the process of customising Adams through the use of macros and developing customer specific dialogue boxes. Command Language Conditional Constructs and Loops Macros Macro Syntax and Parameters Dialogue Boxes Plug-ins A working knowledge of Adams as covered in ADM Days 800+VAT 14

15 ADM710 - Flex Body Dynamics and Modal Stress Recovery using Adams You will learn how to use Adams/Flex to incorporate flexibility into your Adams models. The course is primarily focused on using component modal synthesis via the Modal Neutral File (MNF) and Adams/View. Previous FEA experience is a plus, but not a requirement. You will be comfortable using Adams/Flex after taking this course Modal Flexibility: Theoretical background, combined rigid-flexible equations of motion Importing a flexible body into a rigid-body model Working with flexible body models in Adams/View (mode manager, connect flexible part to rigid parts, add forces/torques, use measures) Adams/Solver dataset and Adams/View command language syntax Using flexible body models with stand-alone Adams/Solver (edit.adm files, generate.mtx files, submit simulations) Performing static, dynamic, and eigenvalue analyses Exporting loads from Adams/View Methods for optimizing MNFs Comparing results of rigid and flexible models (plotting, animation) Validating Adams/Flex results with FEM results and hand-calculations Modelling considerations Debugging Modelling contact with a flexible body Using a modal force (MFORCE) to define a pressure load Publishing simulation results on the web (generate movies, table of eigenvalues, snapshot images, include model files) Reviewing several application examples Reviewing/Discussing methods for generating MNF from FEA packages Adams/AutoFlex A working knowledge of Adams as covered in ADM Days 800+VAT 15

16 ADM711 Control System Integration with Adams using MATLAB and Easy5 s You will learn how to connect your Adams models to control systems developed in MATLAB or Easy5. Techniques for combining linear, nonlinear, continuous, and sampled control systems with your Adams model will be presented, along with tutorials. Converting your MATLAB or Easy5 model into a native Adams entity via Control System Import to run the combined model completely within Adams will also be discussed. Other topics presented in the course include an overview of all System Elements, including State Variables, Differential Equations, Linear State Equations, and General State Equations to develop models (e.g., control systems) supplemental to your mechanical model. Adams/Controls terminology Defining inputs/outputs for Adams models to tie to controls Adams Interface elements provided by Adams/Controls for MATLAB, and Easy5 Function evaluation mode and co-simulation mode Interactive and batch mode simulations Using initialization commands Control system examples with differential equations, transfer functions, linear state equations, and general state equations Examples using Control System Import with Easy5 and MATLAB A working knowledge of Adams as covered in ADM701. On Request 1 Day 400+VAT 16

17 ADM730 Design of Experiments (DOE) and Stochastics (Monte Carlo) Analysis using Adams This seminar is intended for users who want to learn about their model designs in an efficient manner. This is accomplished using Design of Experiments (DOE) techniques for learning about the design and communication of the results across companies and departments. An optimal DOE technique is demonstrated, setting users up for further studies such as optimization and robustness analysis. Create Factors and Responses in your model Parametrics Classicial DOEs Results interpretation Using the ASCII Conduit Using Adams/Insight Monte Carlo Analysis and Correlation Prerequisite A working knowledge of Adams as covered in ADM701. On Request 1 Day 400+VAT 17

18 ADM740 Vehicle Modelling and Simulation using Adams/Car This seminar is divided into two sections. The first covers the requirements for the standard user such as running suspension tests, vehicle manoeuvres and interrogating the results. The second covers the process of modifying the standard templates and building new functioning templates such as those for the steering, suspension and wheels. Description about user modes and data hierarchy Overview of database hierarchy Learning the concept of subsystems and assemblies Create new suspension and full vehicle models Create user specific events with the Driving Machine Setup suspension and full vehicle simulations How to use handling and durability tire Perform suspension and full vehicle simulations Create plot configuration files Good practice in creating a fully parametric vehicle model Create and modify templates Create and modify different type of parts Learn how to use communicators Learn how to create new requests within the same subsystem as well as between different subsystems Create and modify different property files Create and modify automotive elements such as spring, dampers, bushings, bump stop, etc. Overview on how to implement flexible bodies Prerequisite A working knowledge of Adams as covered in ADM701. General vehicle knowledge (vehicle dynamics, suspension design, etc.) preferred Days 1,600+VAT 18

19 ADM750 Gear, Belt, and Chain Modeling with Adams/Machinery s You will learn how to build detailed models containing belts, chains or geras with Adams/Machinery. Introducing the Adams/Machinery Wizard Adams/Machinery Database Structure for Components, Parametrics, etc. Creating Gear Systems: o Spur, Helical & Bevel Gear Types o Simplified, Detailed & 3D Contact Types Creating Belt Systems: o Smooth, V-Grooved & Toothed Belts o Pulley Types: Standard and Tensioners o Actuator Types and System Outputs Creating Chain Drive Systems: o Roller and Silent Types o Compliance Methods: From Linear to User-Defined o Tensioner/Guide Types: Rotational, Fixed and Translational Simulation Speed and Robustness Guidelines for Typical Machinery Systems A working knowledge of Adams as covered in ADM701. On Request 1 Day 400+VAT 19

20 Digimat DIG201 - Digimat Standard Training Structural Engineering This seminar provides an introduction to how to use a Digimat material model in a FE analysis of a plastic or composite part that has fiber orientations predicted by an injection modelling or draping simulation. By using a Digimat material model the nonlinear material properties and the effects of the local microstructure of the composite or plastic can ve taken into account. The following Digimat modules will be used: Digimat-MF, Digimat-MX, Digimat-CAE and DIgimat-MAP Technical information on the way the program operates, e.g. licensing, file organization,etc. Introduction to the Digimat Graphical User Interface including the plug-in embedded in CAE codes Mean-field homogenization theory as well as the material models available in Digimat-MF Material database management and automatic calibration of Digimat materials Coupling of Digimat with FEA code in Digimat-CAE. Introduction to the different solution procedure (macro, hybrid, micro) and presentation of the failure criteria definition Mapping of fiber orientation tensors, initial stresses/temperatures between two dissimilar meshes in Digimat-Map. Theoretical aspects of the mapping procedure are explained Guided exercises to implement the different procedures presented during the course Basic theoretical knowledge of material constitutive model (elasticity, elasto-plasticity) is recomended. Good knowledge of one FEA code is required. Bristol: Days 800+VAT DIG201 - Digimat Standard Training Material Engineering This seminar provides an introduction to how to use a Digimat material model in a FE analysis of a plastic or composite part that has fiber orientations predicted by an injection modelling or draping simulation. By using a Digimat material model the nonlinear material properties and the effects of the local microstructure of the composite or plastic can ve taken into account. The following Digimat modules will be used: Digimat-MF, Digimat-MX, Digimat-CAE and DIgimat-MAP Technical information on the way the program operates, e.g. licensing, file organization,etc. Introduction to the Digimat Graphical User Interface Mean-field homogenization theory as well as the material models available in Digimat-MF Material database management and automatic calibration of Digimat materials in Digimat-MX Introduction to designing RVE (representative volume element) for various composite microstructures including composites with; multiple reinforcing phases, clustering, and decohesion zones, among others, using Digimat-FE Exporting RVE into FEA solver to run a finite element analysis on the material and post-processing of results in Digimat-FE. Guided exercises to implement the different procedures presented during the course Basic theoretical knowledge of material constitutive model is recomended. Good knowledge of FEA code is recomended. Bristol: Days 800+VAT 20

21 Dytran DYT101 Explicit Structural Analysis Using Dytran Dytran is designed to solve transient dynamic problems involving a high degree of nonlinearity. This seminar provides an introduction to the Lagrangian capabilities of Dytran. The primary emphasis is on how to use the program to solve engineering problems. The major capabilities of the program are covered in detail. The process of performing an analysis is discussed in its entirety, from initial modelling to the postprocessing of results. Hands-on workshops and example problems reinforce the material covered in the lectures. Advice is offered on modelling techniques, meshing, and evaluation of results. In addition, techniques to minimize the cost of analyses are discussed. By the end of the seminar, attendees should be able to apply Dytran to the solution of practical engineering problems in structural mechanics. Overview of Dytran capabilities Typical applications When to use explicit technology Explicit Lagrange theory Input definition Executing Dytran Patran Pre-processing Element Library Material Models Lagrangian Loading Conditions Contact Rigids Experience with a general-purpose finite element analysis application is recommended Chester: Days 600+VAT 21

22 DYT102 Explicit Fluid and Fluid-Structure Interaction Using Dytran Dytran is a coupled Euler-Lagrange code designed to solve fluid-structure interaction problems. This seminar complements the DYT101 seminar, provides an introduction to the Eulerian processor, and shows how it can be coupled to the Lagrangian, or structural parts, of the model. The emphasis of this seminar is on using the programs to solve engineering problems. The capabilities of the program, including typical applications, are covered in detail. Hands-on workshops and example problems reinforce the lecture material. Advice is offered on modelling techniques, choice of material models, and evaluation of results. In addition, techniques to reduce the cost of analyses are discussed. By the end of the course, attendees should have a basic understanding of how to solve fluid-structure interaction problems using an Euler-Lagrange approach. When to use Eulerian and Euler-Lagrange coupling Typical applications Explicit Euler theory Finite volume method Euler mesh Euler loading, boundary and initial conditions Material models General coupling of Fluid-Structure Interaction Arbitrary Lagrange Euler coupling Output requests Post processing DYT101 is recommended Chester: Days 600+VAT 22

23 Easy5 EAS101 - Easy5 Dynamic System Modelling Simulation and Analysis using Easy5 (Intro Class) This course gives the engineer a basic understanding of the Easy5 modelling, simulation, and analysis environment. Students learn to represent an existing dynamic system on screen using predefined modelling blocks and components, empirical table data, and user-defined FORTRAN components. Students learn to calculate stable operating points using the Easy5 Steady-State Analysis, and are introduced to fixed- and variable-step integration used during simulation. The class also covers the Easy5 set of linear analyses, including, in part, transfer function calculation, frequency response generation, and root locus analysis. Model Building Linear Analysis Analysis Tool & Methodology Simulation and Integration Data Tables and the Matrix Editor Operating Point and Steady State Analysis Easy5 Architecture Writing Code in Easy5 An engineering background, knowledge of FORTRAN, and an understanding of differential equations Days 600+VAT 23

24 EAS103 - Easy5 Modelling Simulation of Fluid Power Systems Using Easy5 This course has been designed to give the hydraulics engineer a basic understanding of the issues and difficulties surrounding modelling and simulation of fluid power systems. It is geared towards the user who already has a general understanding of the Easy5 modelling, simulation and analysis environment as well as knowledge in the area of hydraulics design. General Theory of Hydraulic Modelling in Easy5 Modelling an Open Loop Oil Cooling System Obtain Initial Operating Points Fluid properties Modelling a Closed Loop Oil Cooling System Difficulties in obtaining steady state Building a Piloted Servo Valve Building valves from primitive hydraulic components Use steady state scan to parameterize models Linear analysis Model a Raise/Lower Valve for a Hydraulic Lift Using HC library components to create larger component Reverse flow in a hydraulic system Minimizing number of pressure states Simulating Water hammer Effects Disaster Recovery - How to handle problem models Working knowledge of Easy5 and a basic understanding of the Thermal Hydraulics library Days 600+VAT 24

25 EAS105 - Modelling Simulation of Gas Systems Using Easy5 This course will teach you how to use Easy5 to model pneumatic systems and valves. It will review some fundamentals that are usually not well understood and provide advanced instructions for features in Easy5. General Theory of Pneumatic Modelling in Easy5 Modelling a Simple Pneumatic Pressure Regulator Practice basic Easy5 skills Obtain Initial Operating Points Difficulties in Obtaining Steady State Use Steady State to parameterize models Modelling a Flow Control Valve Building Valves from Primitive Pneumatic Components Building an Electro pneumatic Pressure Regulator Data Tables and the Matrix Editor Linear Analysis Model a Temperature Control System with Heat Exchangers Simulation and Numerical Integration Macro Code Development Sorting and Solving Implicit Loops Modelling and Development with Discrete Components Modelling Discontinuities with Switch States Additional topics as interest and time allows including: Debugging models How to define and use your own fluid property set Completion of introductory class and/or a working knowledge of Easy Days 600+VAT 25

26 Flightloads FLD120 Introduction to MSC Nastran Aeroelasticity using Flightloads and Patran This seminar is intended for engineers concerned with structural loads, flying qualities, and aeroelastic stability of flexible aircraft and missiles. The objective of the seminar is to familiarize the engineer with an integrated approach to the state-of-theart MSC Nastran applications in aeroelastic analyses and their implementation via the FlightLoads User Interface and process management tool. An overview of the aeroelastic capability is followed by discussion of the available aerodynamic theories and case studies of the three available aeroelastic solutions: static aeroelasticity, flutter, and dynamic aeroelasticity. Highly detailed workshops are used throughout. Introduction to Aeroelasticity What is Aeroelasticity Aeroelastic Analysis Types Aeroelastic Modeling Splines Aeroelastic Solution Sequences Introduction to FlightLoads and Dynamics What is FlightLoads FlightLoads: A Brief Description of the Features FlightLoads: Latest Developments Aerodynamic Theories Doublet Lattice Method Zona51 Subsonic Slender Body Theory Splines Surface Splines Linear Splines Theory of Static Aeroelastic Analysis Aerodynamic Loads Linearization: Elastic Deformation The Flexible Aircraft Theory of Static Aeroelastic Analysis Stability Derivatives: Lateral Directional Trim Monitor Points Aeroelastic Response Analysis Dynamic Equations Random Response Analysis NAS 101: Introduction to MSC Nastran NAS 102: MSC Nastran Dynamics Analysis PAT 301: Introduction to Patran On Request 5 Days 2,000+VAT 26

27 Marc MAR101 Marc Introductory Course An introduction in the use of Marc and Mentat (Classic and New versions) through a series of lectures, demonstrations and workshops. Overview of Marc and its Capabilities Review of the Fundamentals of the Finite Element Method The Implications of Running a Geometrically Nonlinear Analysis Nonlinear Incremental Solution Procedures Iterative Convergence Methods Interpreting Results from Nonlinear Analyses Best Practice in Contact Analyses Solver Choice and Parallel Analysis Options Dynamic Analysis (Harmonic, Transient) A basic knowledge of statics and strength of materials is highly recommended. No previous finite element analysis experience is required Derby: Days 1,200+VAT MAR102 - Marc/Mentat Advanced Course The purpose of this course is to enhance the knowledge of a current Marc and Mentat user in more advanced techniques through a series of lectures, demonstrations and workshops. Review of Nonlinear Analysis Procedures Geometric Nonlinearity and Buckling Methods Element Technology and Correct Usage Materially Nonlinear Analysis (plasticity, hyperelasticity, failure, damage, etc.) Diagnosing a Failing Nonlinear Analysis Optional Topics (depending on interest of participants) Include: Composite Analysis (Including Progressive Failure and Crack Growth) Heat Transfer and Thermal Stress Analysis (Steady State, Transient, Coupled) Dynamic Analysis (Harmonic, Transient) MAR101 Marc/Mentat Introductory Course Frimley Days 800+VAT 27

28 MAR103 Marc Experimental Elastomer Analysis The purpose of this course is to provide a fundamental understanding of how material testing and finite element analysis are combined to improve the design of rubber and elastomeric products. Introduction Overview of Elastomer Testing and Analysis Measurement and Modelling principals Curve Fitting of Uniaxial Material Data Curve Fitting of Multi Mode Material Data Simulations with Specimen Data Tips and best practice for elastomer simulations A basic knowledge of statics and strength of materials is highly recommended. Previous finite element analysis experience is recommended. Knowledge of elastomeric materials. On request 2 Days 800+VAT MAR106 Electromagnetic Analysis Using Marc This course provides an overview of general electromagnetic theory and the typical problems that Marc can handle. It provides a quick review of Marc nonlinear methodology and contact analysis as well as of Marc Structural and thermal analysis. Each workshop shows detailed step by step finite element modeling in Mentat and is a quick, simple and efficient way of learning Mentat. The post-processing section of each workshop problem illustrates how finite element results can be interpreted, and how they can be used to obtain other practical quantities. Relevant short notes at the end of a workshop help in getting additional information about Marc and Mentat. Main theory of EM and Electrostatic workshop Joule-thermal-structural and Magnetostatics-structural workshop Piezoelectric, magnetostatic-thermal and magnetodynamics workshop MAR101 Marc/Mentat Introductory Course On request 3 Days 1,200+VAT 28

29 MAR120 - Marc/Patran Introductory Course An introduction to the use of Marc within Patran, using a series of lectures, demonstrations and workshops. Overview of Marc and its Capabilities Review of the Fundamentals of the Finite Element Method The Implications of Running a Geometrically Nonlinear Analysis Nonlinear Incremental Solution Procedures Iterative Convergence Methods Interpreting Results from Nonlinear Analyses Best Practice in Contact Analyses Solver Choice and Parallel Analysis Options PAT301 or equivalent experience with Patran. Frimley Days 1,600+VAT MAR299 - Marc Programming Course The purpose of this course is to teach the current Marc and Mentat user to use Python and Fortran to control and automate both the Marc solver process, as well as the Mentat pre/post processing environment through a series of lectures, demonstrations and workshops. Review of User Subroutines Available for Use with Marc Review of Python Functions Available for use with Mentat Fundamentals of the Marc and Mentat Programming Structures Examples of Material Failure, Loading, Result Creation, etc. will be Considered for Marc Examples of Automating Model Changes and Result Extraction/Evaluation will be Considered for Mentat Working Knowledge of Marc and Mentat. Basic Knowledge of Programming On request 2 Days 800+VAT 29

30 MSC Nastran NAS101 - Basic MSC.Nastran Linear Static, Normal Modes and Buckling Analysis The purpose of this seminar is to introduce the new MSC.Nastran user to the basic ASCII input requirements for linear static and normal modes analysis of structures. Many important features of MSC.Nastran are illustrated with numerous example problems. MSC.Nastran data structure and element library, modelling practices, model debugging, and guidelines for efficient solutions are discussed. This seminar (or NAS120) provides the foundation required for intermediate and advanced MSC.Nastran applications. Introduction to finite element theory and finite element modelling Overview of MSC.Nastran input data MSC.Nastran solution sequences Case control section Output requests, Data selection Subcase definition Bulk data section Coordinate systems, Geometry, Constraints Material properties, Elements Intermediate modelling practices Set notations, Rigid elements, Model debugging, Symmetry, Modelling recommendations, Parameters Natural frequencies and normal modes Governing equations, Methods of computation MSC.Nastran entries for normal modes analysis Buckling theory MSC.Nastran entries for buckling analysis Linear contact and permanent glue Introduction to the file management section Restarts, Databases Overview of advanced capabilities A basic knowledge of statics and strength of materials is highly recommended. No previous finite element analysis experience is required Chester: Days 1,600+VAT 30

31 NAS102 - MSC.Nastran Dynamic Basic Analysis This workshop is a comprehensive presentation of the dynamic capabilities available in MSC.Nastran. It covers fundamental and advanced topics with an emphasis on practical applications and example problems. A comprehensive presentation of the dynamic capabilities available in MSC.Nastran is presented in this workshop. These dynamic analysis capabilities include normal mode analysis, transient response analysis and frequency response analysis. Theoretical derivations of the mathematics used in dynamic analysis are presented only as they pertain to the proper understanding of the use of each capability. Review of Fundamentals Dynamic Modelling Input Normal Mode Analysis Reduction in Dynamic Analysis Rigid Body Modes Damping Transient Response Analysis Frequency Response Analysis Direct Matrix Input Dynamic Equations of Motion Residual Vector Methods Enforced Motion Shock and Response Spectrum Analysis Random Response Analysis Complex Eigenvalue Analysis Normal Mode Analysis Using Parts Superelement Extra Points, Transfer Functions, and NOLINs Normal Modes of Preloaded Structures Dynamic Design Optimization Test-Analysis Correlation Basic MSC.Nastran Linear Static Analysis seminar or equivalent experience On request 4 Days 1,600+VAT 31

32 NAS103 - Nonlinear Analysis This seminar provides a working knowledge of the nonlinear capabilities of MSC.Nastran for static and dynamic analysis. Both geometric and material nonlinearity are discussed in detail. Nonlinear features of MSC.Nastran elements are explained and several examples are presented. Some practical guidelines for nonlinear analysis are also given. Nonlinear static analysis strategies Newton-Raphson method - Advancing schemes Stiffness update schemes Line search - Convergence and divergence Restarts Geometric nonlinear analysis Large rotations - Follower forces Linear and nonlinear buckling analysis Material types Nonlinear elastic Hyperelastic (Green elastic) - Elastoplastic Creep- Temperature dependent Nonlinear elements Small strain elements - Large strain elements Contact (interface) elements Gap - Slideline Nonlinear transient analysis Integration schemes Mass, damping, and load superelement specification Restarts Superelements Special topics Nonlinear modal analysis - Composite elements A working knowledge of linear static analysis as covered in NAS101. Experience with dynamic analysis and superelement analysis is recommended. On request 4 Days 1,600+VAT 32

33 NAS104 - Thermal Analysis with MSC.Nastran This seminar describes the latest heat transfer and thermal stress analysis capabilities beginning with Version 68. Program inputs and interpretation of results for conduction, convection, and radiation analyses are covered in detail. The seminar attempts to provide a balance between theory, its development within the context of MSC.Nastran, and practical application. Example problems are used to clarify the information presented MSC.Nastran communication Input data formats - Executive control statements Case control statements - Parameter statements Overview of heat transfer capabilities Conduction - Convection - Radiation The MSC.Nastran thermal model Geometry - grid points and elements - Material properties Boundary conditions - surface elements - Thermal "loads" Thermal transients NASTRAN input data Steady state analysis (SOL 153) NLPARM statement - Free and forced convection Thermal loads - Radiation boundary condition Radiation view factors - Radiation enclosure analysis - Spectral exchange Transient analysis (SOL 159) TSTEPNL statement - Transient load methodology Control nodes - Temperature boundary conditions - Phase change Thermal stress analysis Restarts Multimode heat transfer analysis Thermal system analysis Miscellaneous topics Basic knowledge of heat transfer fundamentals. NAS101 or equivalent experience is recommended Days 1,200+VAT 33

34 NAS105 - Practical Finite Element Modelling Techniques Using MSC.Nastran This seminar provides practical advice and guidance in using MSC.Nastran for a variety of structural applications. Special MSC.Nastran techniques that can be used to obtain better results at less cost are discussed. Participants will increase their engineering productivity by modelling difficult shapes more easily, finding errors quickly, and running problems more efficiently. Element techniques Review of available options - Theoretical considerations and modern practices Accuracy versus shape and mesh size - Modelling tricks - Mesh transitions and special connections Constraints and boundary conditions The "R" constraints - Singularities - detection and cure - Symmetry methods Diagnosing modelling problems Available diagnostic messages - Graphical methods - Useful output options - Free-body checks - Redundant analysis methods Recommendations for dynamic modelling Performance of reduction techniques - Using the SUPORT entry - Approximating frequencies using static analysis - Hints to evaluate the quality of modal solutions Superelements made easy Single-level models - Basic input - Basic restarts - Modal synthesis techniques - Global-local analysis techniques Nonlinear analysis Using linear analysis to model nonlinear behaviour Overview of cyclic symmetry Overview of composites NAS101 or equivalent experience. Working knowledge of finite element analysis applications. Chester: Days 1,200+VAT 34

35 NAS106 - Superelement Analysis with MSC.Nastran One thing that has been consistently demonstrated in finite element analysis is that demand will always exceed existing capabilities. This limit on hardware, combined with budget limitations (large runs are expensive), results in limitations on the ability of engineers to solve large, complicated problems. A solution to these limitations is the use of superelements in MSC.Nastran. Using superelements, one can check segments of the model independently and use the reduced matrices from the check runs in the final full model analysis. Superelements allow different groups to work on different parts of the model. This seminar describes how to perform static and dynamic analysis using superelement techniques. Special attention is paid to restarts in superelement analysis and applying superelements to dynamic analysis, including component modal synthesis. The final day describes techniques for the use of secondary superelements focusing especially on the use of external superelements. Defining Superelements and Terminology Loads, Constraints, Parameters, and Case Control Multilevel Superelement Analysis Component Modes, Reduction, and Assembly Model Checkout Tools Database and Restarts Dynamic Analysis with Superelements Nonlinear Analysis External Superelement Image Superelements NAS101 or equivalent experience. MSC.Nastran Dynamic Analysis seminar (NAS102) is recommended Bristol: Days 1,200+VAT 35

36 NAS107 - Optimisation with MSC.Nastran MSC.Nastran features a comprehensive design sensitivity and optimisation capability. It is possible to design for a variety of user-defined objectives such as minimum weight or maximum frequency. This seminar covers the theoretical and practical aspects of MSC.Nastran design sensitivity and optimisation: emphasis is placed on using the program to solve practical engineering problems. The capabilities of the program, including typical applications, are covered in detail. The concept of a design model is introduced. The process of optimising a structure is discussed from initial modelling to interpretation of results. Numerous example problems reinforce the material covered in the lectures. What is design optimisation? - The basic optimisation problem statement Introduction to numerical optimisation The concept of a design space - Constrained and unconstrained minimisation techniques Convergence testing - Numerical aspects of interest to the design engineer Analysis versus design modelling - Design model definition procedure - choosing the design variables, objective, and constraints Interpretation and utilisation of optimisation results Topology Optimisation Shape Optimisation Topography Optimisation Design variable linking and reduced basis formulations - Formulation of synthetic design variable to property relations - Formulation of synthetic responses Dynamic response Special Modelling topics Multi Model Optimisation Superelement optimisation Non-linear Optimisation Aeroelastic Optimisation Prerequisite NAS101 or equivalent experience Bristol: days 1,200+VAT 36

37 NAS110 - Working with Custom MSC Nastran Solution Sequences using DMAP Direct Matrix Abstraction Programming (DMAP) is a macro language used to build and modify solution sequences in MSC.Nastran. The DMAP language contains powerful matrix instructions as well as flexible scalar variable (parameter) operations. The File Management Section (FMS) is used for the attachment, initialisation, and manipulation of databases. The objective of this seminar is to present DMAP and database application techniques and to prepare attendees to develop DMAP and solution sequence alter packages. This seminar also provides experienced users with the knowledge to perform sophisticated tasks in MSC.Nastran. Such tasks include the creation of DMAP sequences with subdmaps and the creation of a solution sequence (delivery) database. Details are presented on the structured solution sequence (SOLs 100 through 200), DMAP structure, and Nastran Data Definition Language (NDDL). Introduction Overview of DMAP Parameters DMAP Modules SUBDMAPs DMAP Alters U set Partitioning and Merging Additional Common Modules Output Modules Storing and Retrieving from the Database ISHELL Spawning Process Modifying Delivering Database Adding User SubDMAP to Delivering Database NAS101 or equivalent experience. Experience with additional solution sequences and super-element analysis is helpful Days 1,200+VAT 37

38 NAS120 - Linear Structural Analysis with MSC.Nastran and Patran This seminar introduces basic finite element analysis techniques for linear static, normal modes, and buckling analysis of structures using MSC.Nastran and Patran. MSC.Nastran data structure, the element library, modelling practices, model validation, and guidelines for efficient solutions are discussed and illustrated with examples and workshops. Patran will be an integral part of the examples and workshops and will be used to generate and verify illustrative MSC.Nastran models, manage analysis submission requests, and visualise results. This seminar (or NAS101) provides the foundation required for intermediate and advanced MSC.Nastran applications. Introduction to finite element theory and finite element modelling Anatomy of the MSC.Nastran input file Model generation and verification using Patran Creating geometric representation of structure Defining material and element properties Constraining the model Loading the model Meshing the model Model verification Generating and submitting a ready-to run MSC.Nastran input file Linear static analysis Normal modes analysis Buckling analysis Importing an existing MSC.Nastran input file into Patran MSC.Nastran output files and their interpretation Results visualisation using Patran Model debugging tools and recommendations Tips for solving large problems A basic knowledge of statics and strength of materials is highly recommended. No previous finite element analysis experience is required Chester: Bristol: Derby: Days 2,000+VAT 38

39 NAS122 - Dynamic Structural Analysis with MSC.Nastran and Patran This course covers an integrated approach to dynamic analysis using Patran and MSC.Nastran. The student will learn how to identify the nature of the dynamic problem, set up the problem appropriately in Patran and execute it using MSC.Nastran. Details of the MSC.Nastran theory and methodology will be covered which allow the student greater insight into the process. Finally extensive use of Patran will be made to explore the results of the analysis in depth. Review of Fundamentals in Dynamics Dynamic Modelling Input Normal Modes Analysis Reduction Techniques Rigid Body Modes Dynamic Matrix Assembly Transient Response Frequency Response Interactive Frequency Response Enforced Motion Pre-Stiffened Normal Modes Random Response PAT301 and NAS101 seminar or NAS120 seminar Bristol: Days 2,000+VAT 39

40 NAS123 MSC Nastran Implicit Nonlinear (SOL 600) Analysis s This seminar presents how to perform implicit nonlinear analysis using MSC.Nastran SOL 600. MSC.Nastran SOL600 is the nonlinear capabilities of Marc delivered in an MSC.Nastran user interface. SOL 600 provides FEA capability for the analysis of 3D contact and highly nonlinear problems. Overview of Nonlinear Analysis Using Msc.Nastran Sol 600 Numerical Concepts in Nonlinear Analysis Element Library, Mesh Considerations, and Analysis Procedures Analysis Setup and the Analysis Form Analysis Setup for Non-Patran Users Introduction to Choice of Elements Choice of Element Integration Materials Overview and Contact Body Interactions Contact Body Definition Resolving Convergence Problems Buckling and Post-buckling Analysis Structural Dynamics NAS101 or equivalent is recommended On Request 3 Days 1,200+VAT 40

41 NAS126 Explicit Nonlinear Analysis using MSC Nastran and Patran s NAS126 is an introductory course in dynamics simulation using Explicit nonlinear analysis. Students will prepare short duration structural dynamic analyses using MSC Nastran finite element models. Students will learn how to create and/or modify material properties, loads, and boundary and initial conditions for dynamic simulation models. They will also learn how to set up the jobs for running the models and review the results for these models. Explicit Transient Dynamic Analysis Input file format Patran Graphical User Interface Running MSC Nastran SOL 700 Lagrange Basics Element Library Material Models Lagrangian Loading Conditions Lagrangian Boundary Conditions Contact Definition and Analysis NAS120, or (PAT301 and NAS101), or equivalent Chester: Days 1,200+VAT 41

42 NAS400 - Implicit Nonlinear Analysis using MSC Nastran and Patran s NAS400 covers various aspects of implicit nonlinear analysis using MSC Nastran and Patran. This includes large deformation, advanced nonlinear material, contact, analysis chaining, heat transfer, and nonlinear transient dynamics. Overview of MSC Nastran Overview of Implicit Analysis with SOL 400 Sources of Nonlinearity Concepts in Nonlinear Analysis Chaining of Different Analysis Types Boundary Condition Changes Advanced Nonlinear Material Models in MSC Nastran Large Strain Elastic-Plastic Nonlinear Elastic Hyperelastic Composite Creep Shape Memory Alloy Advanced Nonlinear Elements in MSC Nastran Contact Bodies and Contact Body Interactions Heat Transfer Nonlinear Structural Dynamics Basic knowledge in Nastran (NAS101, NAS120 and NAS103) is required Chester: Bristol: Days 1,200+VAT 42

43 Patran PAT301 - Introduction to Patran PAT301 is the introductory course for new Patran users. Students will master the basic skills required to use Patran in typical MCAE applications. PAT301 emphasises practical skills development through comprehensive, hands-on laboratory sessions. Students will learn to build analysis models using Patran, define material properties, create boundary conditions, access Patran's material libraries for material properties, submit their job for analysis and postprocess results in varying formats. Take a model through the complete design and analysis cycle Import CAD geometry and use it to create new geometry in Patran Learn graphics manipulation, imaging, and viewing techniques Practice using the different meshing techniques: isomesher, paver, and tetmesher Verify your finite element model Apply loads and boundary conditions Learn advanced techniques: Apply distributed pressure loads Vary thicknesses Use groups and lists to filter and group entities Submit analysis View and manipulate results No previous experience is required but an understanding of FE techniques is desirable Chester: Days 2,000+VAT 43

44 PAT302 - Advanced use of Patran PAT302 provides an in-depth examination of the advanced features of Patran. Sample topics covered by PAT302 include: advanced Patran features usage for meshing and mesh refinement, use of various Patran Command Language (PCL) files for session customisation, application of advanced geometric construction techniques, definition of fields to represent spatially varying functions for loads and boundary conditions, generation of constraint equations (MPCs) to define physical relationships, and creation of sophisticated multi-effect graphical images.. User interface shortcuts and advanced capabilities to your Patran efficiency and help you customize your work environment Wildcards, keywords, list processor syntax, and command line options Database/model manipulation using group transformation and database merge capabilities Customizing the toolbar and start-up environment Discover advanced geometry modelling and CAD access features Advanced construction and editing techniques Repair non-topologically congruent (i.e. "dirty") geometry Apply advanced finite element modelling capabilities Mapped, automated and 2.5-D meshing, mesh smoothing Global-local and thermal-structural modelling using FEM fields Advanced Surface Mesher Advanced node and element editing techniques Post-processing and advanced graphical results display Advanced capabilities of results, Insight, XY plot, and text report Numerical methods: data averaging and extrapolation Using multiple Insight tools Patran Command Language (PCL) Basics PCL programming in conjunction with Patran modelling PCL syntax, directives, operators, variables, arrays and libraries Write a PCL routine to automate parameterised geometry creation PAT301 or equivalent experience in the use of Patran Days 1,600+VAT 44

45 PAT304 Introduction to Patran Command Language (PCL) PAT304 provides students with a comprehensive overview of the MSC.Patran Command Language (PCL) for site integration and user programming. Topics include basic PCL syntax, creation of user interface objects (widgets) such as forms, buttons, slidebars, etc., spawning remote processes from the MSC.Patran session, usage of database access calls, handling interrupts from an event-driven system, compiling, debugging, and code management. Students will build practical skills by performing 17 PCL programming exercises in multiple laboratory sessions. Exercises include the development of PCL code to create a fully parameterised finite element analysis model for use in shape optimization and design studies. File I/O (create and parse a text file) Spawn UNIX command from Patran (i.e. start your own analysis code processing) Parametric Modelling (i.e. build same part but vary length, width or radius of part) Dynamic memory allocation Create a Graphical User Interface (GUI) General PCL syntax and usage PAT301 or compatible experience. Familiarity with C or Fortran or Pascal Days 2,000+VAT PAT318 - Durability and Fatigue Analysis using MSC.Fatigue This course introduces basics and advanced methods for evaluation and estimation of fatigue life using MSC Fatigue. Aimed at the MBS or FE analyst with no previous experience of fatigue analysis, the course is an ideal introduction to the basic concepts of total life, crack initiation, crack propagation and vibration fatigue methods. The theoretical background is covered along with practical issues regarding the integration to MBS/FE environment and the usage of MSC Fatigue. A variety of examples and hands-on sessions provide detailed coverage of the software user interface including loading, materials, and results visualisation capabilities. Intro to Fatigue Analysis: Historical Background and modern computational methods Stress-life (S-N) method: similitude, rainflow cycle counting, linear damage summation, Factors influencing fatigue life MSC Fatigue User Interface: Modules and Capabilities Fatigue analysis of welds Strain-Life (e-n) method: uniaxial theory, plastic correction rules, factors influencing fatigue life Introduction to multiaxial theory: biaxial assessment and factor of safety Temperature Corrected Fatigue, theory and examples Elements of Dynamic analysis: choice of the domain, from quasi static approximation to Frequency domain, Elements of Component Modal Synthesis and Multi Body Dynamics: examples with Adams/flex/durability Duty cycle analysis, ATV example Fatigue in the Frequency domain, theory and examples Accelerated Fatigue Simulation, theory and examples No prior knowledge of fatigue analysis techniques or Patran is required, a basic knowledge of FE and strength of materials is desirable. Chester: Days 1,200+VAT 45

46 PAT319 - Fatigue Analysis of Dynamically Responsive Systems using FEA Fatigue analysis is too often presented as a task to be undertaken only by so-called fatigue experts. The first part of this course will show that the basic principles of fatigue life estimation are relatively straightforward and certainly within the role of typical stress, dynamics and FEA design engineers. The second part of the course will cover vibration fatigue. This topic brings together structural dynamics, FEA and fatigue analysis in order to show how systems with dynamic (resonant) response can be assessed for fatigue life. General Introduction to FE Based Fatigue Basic Fatigue Analysis & Materials Consideration Basic Fatigue Analysis & Loading Considerations Calculation of Stress Concentration Factor Strain-Life Fatigue, Crack Propagation and Derivative Methods Fatigue, Fracture & Damage Tolerance Introduction to crack growth analysis-lefm Failure criteria Determination of critical crack lengths Basics of Random Process Theory & Frequency Analysis Statistical characterization of random processes Vibration Fatigue Solvers Time Based Methods Multi Body Dynamics (MBD) Simulation Methods Introduction to Non-linear Frequency Domain Phenomena No prior knowledge of fatigue analysis techniques or dynamics is required Days 1,200+VAT 46

47 PAT325 - Composites Analysis Using Laminate Modeller This seminar will familiarise students with the use of Patran and Laminate Modeller in composite design and analysis. Composite materials theory is introduced, along with its integration into the FE method. Introduction to Laminate Modeller Introduction to Composite Materials Review of Material Constitutive Laws and Laminate Stiffness Creation of Composite Model in Patran Failure Criteria for Composites Postprocessing of Composite Analysis Results Creation of Ply Materials, and Layups with Laminate Modeller Plies on Doubly Curved Surfaces Shear Algorithms Draping Algorithms Creating Splits in Plies Manufacturing Integration Exporting Flat Pattern Springback Analysis Exercise Session Optimisation of Composites A degree in engineering, material science or equivalent experience Familiarity with Patran Bristol: Days 1,200+VAT 47

48 SimXpert SMX101 - Introduction to SimXpert SMX101 is the introductory course for new SimXpert users. Students will master the basic skills required to use SimXpert in typical MCAE applications. They will be introduced to the Structures, Motion, Thermal, and Crash Workspaces. A brief introduction to building and running templates is also included. SMX101 emphasizes practical skills development through comprehensive, hands-on laboratory sessions. Students will learn to build analysis models using SimXpert, define material properties, create boundary conditions, apply loads, and submit their job for analysis and postprocess results. Take a model through the complete design and analysis cycle Learn graphics manipulation, imaging, and viewing techniques Import CAD geometry and manipulate it in SimXpert Practice using the different meshing techniques including morphing Learn how to verify and check the quality of a finite element model Study various ways to create Connections Nonlinear analysis of a bolt model Integration of Motion and Structures Workspaces Overview of Crash and Thermal Workspaces Macro creation Running and Building Templates A basic knowledge of statics and strength of materials is recommended (Combination course) (Combination course) Chester: (Combination course) 3 Days 1,200+VAT 48

49 SMX120 - SimXpert Linear Static Analysis SMX120 is the introductory course for the SimXpert Structures Workspace. Students will master the basic skills required to use SimXpert in typical Structural applications. SMX120 emphasizes practical skills development through comprehensive, hands-on laboratory sessions. Students will learn to build analysis models using SimXpert, define material properties, create boundary conditions, apply loads, and submit their job for analysis and postprocess results. Take a model through the complete design and analysis cycle Learn to import and edit Nastran input files Examine uses of different element types Become familiar with the contents of the Nastran output files Learn techniques to assess mesh quality Overview material types, including composites Investigate contact A basic knowledge of statics and strength of materials is recommended Although not required, a working knowledge of SimXpert such as that provided in the SMX101 class is recommended Chester: (Combination course) 3 Days 1,200+VAT SMX121 - SimXpert Motion Analysis SMX121 is an introductory course in motion simulation using the Motion Workspace in SimXpert. Students will prepare motion models utilizing CAD geometry in SimXpert. Students will learn to create connections between parts, model contact and friction, model forces, and apply specific motion to parts in order to create motion models. Students will also learn to review motion results from these models using animations and charts. Finally, the course demonstrates the modelling of flexible bodies in a motion simulation through interaction with the SimXpert Structures Workspace. Import of CAD models into SimXpert Parts in SimXpert Motion Workspace Result Animations Charting Result Data Connections between motion parts Contact Forces, including spring dampers Applied Motion Flexible Body Simulation with Structures Workspace No prior familiarity with SimXpert is required (Combination course) Chester: (Combination course) 3 Days 1,200+VAT 49

50 SMX126 - Introduction to SimXpert MD Explicit Workspace SMX126 is an introductory course in dynamics simulation using the MD Explicit Workspace in SimXpert. Students will prepare short duration structural dynamics models utilizing the imported Nastran finite element models. Students will learn how to create and/or modify material and part properties, loads, and boundary and initial conditions for dynamic simulation models. They will also learn how to set up the jobs for running the models with the MD Explicit solver, and review the results for these models using State Plot and Chart. Overview of Explicit Dynamic Analysis in SimXpert Overview of SimXpert Theory, briefly Import of Nastran models into SimXpert Parts in SimXpert MD Explicit workspace Material Models for Explicit Dynamic Analysis Elements in MD Explicit Loads and Boundary Conditions Contact Bodies and Contact Properties Initial Conditions Selection of Time Steps Explicit Analysis set-up, including nonlinear parameters Display of Explicit Analysis Results Hands on Workshops No prior familiarity with SimXpert is required (Combination course) 3 Days 1,200+VAT 50

51 SMX131 - SimXpert Templates SMX131 is a course that focuses on the SimXpert Template Builder workspace. Students will gain the skills to create simulation templates that automate complex and/or repetitive analysis procedures. In the SimXpert Template Builder learners will build templates that utilize several different workspaces and test them in the Template Execution environment. Students will also be able to create actions, the basic building blocks of templates, and use the various connection, branching, and looping tools to add complexity to a template. Publishing templates to the enterprise via the SimManager portal is also explored. Explore the Template Builder workspace Run a simple Structures template in Template Execution window Build a simple template using built-in actions and connection tool Record a macro (template) and then edit it in Template Builder Build a template containing choice and loop tools Create a new embedded script action (using RADE language) Create a new core script action (using Python language) Execute some additional templates and explore various levels of automation Learn how publishing and retrieving templates via the SimManager portal allows sharing across the enterprise SMX101 is recommended before taking SMX (Combination course) 3 Days 1,200+VAT 51

52 Sinda SND501 - Network Thermal Analysis Using MSC Sinda The intent of this course is to provide users with comprehensive exposure to the MSC Sinda thermal analysis program. A combination of lecture and hands-on instruction is used to teach how to create MSC Sinda thermal models involving real world thermal boundary conditions. Thermal Modeling Using MSC Sinda. A combination of lecture and hands-on instruction is used to teach how to create MSC Sinda thermal models involving real world thermal boundary conditions. Numerical Methods in MSC Sinda. The finite difference numerical methods used in the steady state and transient solutions of MSC Sinda,convergence, stability, control constants and errors. Advanced MSC Sinda. Steady state or transient. The Fortran file, key variables and arrays. The Pre-Preprocess (PPP mode) and lab problems with global variables. MSC Sinda for PATRAN and other Graphical Modelers. Graphical pre-post processors, how tocreate geometry in 3-D, add boundary conditions, and post process the results. A basic knowledge of thermal analysis is desirable On request 5 Days 2,000+VAT 52

53 SND502 - Thermal Analysis Using Patran with MSC Sinda This course will allow users to explore some of the more in-depth features of creating advanced MSC Sinda thermal models from a finite element model builder. Students will use Patran to build the lab problems. Using MSC Sinda skeleton files Adding FORTRAN to graphically built models Creating groups Excel material files Advanced mesh control Modeling time and temperature dependent properties Advanced geometry manipulation Report generation - using the new Thermal Studio Manipulating models and views Importing and running large models Adding contacts between surfaces Importing, simplifying and using CAD geometry Exploring materials and properties Radiation super elements and primitives - for fast and accurate radiation modeling Radiation enclosures Special features and applications Linking to radiation codes such as THERMICA, Nevada, TRASYS, and TSS Using thermal data for stress analysis The training material assumes some experience with finite element models Days 1,200+VAT 53

54 SND503 - Spacecraft Thermal Analysis Using THERMICA V4 Thermica is a comprehensive spacecraft thermal design system that transparently incorporates the MSC Sinda thermal analyzer into a powerful state-of-the-art graphical user environment. Thermica version 4 is a major upgrade to the previous versions of Thermica that have been used for more than two decades on dozens of major space programs. V4 has a completely new GUI that runs in Windows, Linux and other workstations as native code and graphics. This new user interface has a Windows XP look and feel and is easy and intuitive to learn. The new model builder has links to CAD and Nastran and a powerful new shape based meshing tool. Photo-like animations of spacecrafts traveling to and orbiting other texture mapped planets can be viewed interactively and recorded as movie files. Results such as temperature, heat fluxes and view factors can be graphically visualized on these animations and also in interactive 2D plots. Powerful kinematic motion such as deployment of solar arrays and arbitrary moving surfaces can be modeled. Missions to the moon, Mars and other planets can be completely simulated using time-position-velocity data from external codes such as Satellite Tool Kit (STK). Understanding the process flow. Model building process in V4. Using CAD files for building models. Using Nastran files for model building and exporting Thermica models to Nastran. Orbit definition including using external data from STK to define these. Kinematic motions with moving bodies and arbitrary motions such as solar panels deploying. Mission setup where a model, mesh, orbit and motion are put together. Real time animations and mission viewing options. Computing radiation exchange factors and orbital heating. Generation of a Sinda thermal model. Accuracy checks on ray tracing runs. Post processing of temperatures, view factors and orbital heating using 3D animations of the spacecraft and planets. Recording animations as standard or High Definition (HD) movies. 2D interactive plotting of temperatures, view factors and orbital heating. None On request 3 Days 1,200+VAT 54

55 Contacts Offices 4 Archipelago, Lyon Way, Frimley, Surrey GU16 7ER Tel: +44 (0) Fax: +44 (0) Chester: Suite 4B, Steam Mill Business Centre, Steam Mill Street, Chester CH3 5AN Tel: +44 (0) Fax: +44 (0) Training Tel: +44 (0) [email protected] Online Website: [email protected] 55