MSC Trainings 2015

April 4, 2018 | Author: Francesco B | Category: Computing And Information Technology, Mathematics, Science, Software, Engineering
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TRAINING 2015MSC Training Catalogue Nordic 2015 Hängpilsgatan 6, SE-426 77 Västra Frölunda, Sweden Tel: +46 (0) 31 7485990 Email: [email protected] www.mscsoftware.com/nordic 1 TRAINING 2015 Content Content................................................................................................................................................................................... 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 Registered Consultants .......................................................................................................................................................... 6 Training .................................................................................................................................................................................. 7 Offering .................................................................................................................................................................................. 7 Registration ............................................................................................................................................................................ 7 Discounts ................................................................................................................................................................................ 7 Calendar ................................................................................................................................................................................. 8 Adams .................................................................................................................................................................................. 12 ADM 701 - Complete Multibody Dynamics Analysis with Adams ........................................................................................ 12 ADM 703A+B - Advanced Modeling Elements and Techniques - Adams/Solver Theory ...................................................... 12 ADM 703C - Writing User Subroutines in Adams/Solver ...................................................................................................... 13 ADM 704A - Parametric Model Building in Adams/View ..................................................................................................... 14 ADM 704B - Automating Tasks using Adams/View Scripting, Macros, and GUI Customization .......................................... 14 ADM 710 - Flex Body Dynamics and Modal Stress Recovery using Adams .......................................................................... 15 ADM 711 - Control System Integration with Adams using MATLAB or Easy5 ...................................................................... 15 ADM 720 - Frequency Domain Analysis using Adams/Vibration .......................................................................................... 16 ADM 730 - Design of Experiments (DOE) and Stochastics (Monte Carlo) Analysis using Adams ......................................... 16 ADM 740 - Vehicle Modeling and Simulation using Adams/Car .......................................................................................... 17 ADM 750 - Gear, Belt, and Chain Modeling with Adams/Machinery ................................................................................... 17 MSC Nastran ........................................................................................................................................................................ 18 NAS 101A - Basic MSC.Nastran Linear Static, Normal Modes and Buckling Analysis ........................................................... 18 NAS 101B - Advanced Linear Analysis using MSC Nastran ................................................................................................... 19 NAS 102A - MSC.Nastran Dynamic Basic Analysis ................................................................................................................ 19 NAS 102B - Advanced Dynamic Analysis using MSC Nastran ............................................................................................... 20 NAS 103 - Nonlinear Analysis ............................................................................................................................................... 21 NAS 104 - Thermal Analysis with MSC.Nastran .................................................................................................................... 21 NAS 105 - Practical Finite Element Modeling Techniques Using MSC.Nastran .................................................................... 22 NAS 106A - Basic Substructure Analysis using MSC Nastran - Primary Superelements ....................................................... 23 NAS 106B - Advanced Substructure Analysis using MSC Nastran - Secondary Superelements ........................................... 23 NAS 107 - Optimisation with MSC.Nastran .......................................................................................................................... 24 NAS 110 - DMAP and Database Applications in MSC.Nastran ............................................................................................. 25 NAS 113 - Composite Material Analysis with MSC Nastran ................................................................................................. 25 NAS 115 - Fluid Structure (Acoustic) Analysis using MSC Nastran ....................................................................................... 26 NAS 120 - Linear Structural Analysis with MSC.Nastran and MSC.Patran ............................................................................ 26 2 TRAINING 2015 NAS 122 - Dynamic Structural Analysis with MSC.Nastran and MSC.Patran ........................................................................ 27 NAS 123 - Seminar Class: MSC Nastran Implicit Nonlinear (SOL 600) Analysis .................................................................... 27 NAS 124 - Thermal Analysis using MSC Nastran (SOL400) ................................................................................................... 28 NAS 126 - Explicit Nonlinear Analysis (SOL700) using MSC Nastran and Patran .................................................................. 28 NAS 127 - Rotordynamic Analysis using MSC Nastran ......................................................................................................... 29 NAS 133 - Contact Analysis using MSC Nastran and Patran ................................................................................................. 30 NAS 319A - Fatigue & CAE Integration ................................................................................................................................. 30 NAS 319B - Fatigue & Dynamics - The Reliability of Vibrating Systems................................................................................ 31 NAS 319C - Practical Implementation of Fatigue Methods with MSC Nastran, Patran and Other Applications .................. 31 NAS 400 - Seminar MSC Nastran – SOL 400 ......................................................................................................................... 32 Patran ................................................................................................................................................................................... 33 PAT 301 - Introduction to MSC.Patran ................................................................................................................................. 33 PAT 302 - Advanced use of MSC.Patran ............................................................................................................................... 33 PAT 304 - Automating Tasks and Basic GUI Customization Using the Patran Programming Command Language (PCL) ..... 34 PAT 318A - Basic Durability and Fatigue Life Analysis Using MSC Fatigue ........................................................................... 34 PAT 318B - Advanced Durability and Fatigue Life Analysis Using MSC Fatigue .................................................................... 35 PAT 325 - Composites Analysis............................................................................................................................................. 35 Marc ...................................................................................................................................................................................... 36 MAR 101 - Basic Nonlinear Analysis using Marc and Mentat............................................................................................... 36 MAR 102 - Advanced Nonlinear Analysis using Marc and Mentat ....................................................................................... 36 MAR 103 - Elastomer Analysis using Marc and Mentat ....................................................................................................... 37 SimXpert .............................................................................................................................................................................. 38 SMX 120 - Linear Statics, Normal Modes, and Buckling Analysis using SimXpert ................................................................ 38 SMX 121 - Complete Multibody Dynamics Analysis with SimXpert Motion......................................................................... 38 SMX 126 - Explicit Nonlinear Analysis using SimXpert ......................................................................................................... 39 SMX 131 + SMX132 - MSC SimXpert Templates/SimXpert Scripting .................................................................................... 39 SMX 400 - Nonlinear Structural Analysis using SimXpert ..................................................................................................... 40 Easy5 .................................................................................................................................................................................... 41 EAS 101 - Easy5 Dynamic System Modeling Simulation and Analysis using Easy5 (Intro Class) ........................................... 41 EAS 103 - Easy5 Modeling Simulation of Fluid Power Systems Using Easy5 ........................................................................ 41 EAS 105 - Modeling Simulation of Gas Systems Using Easy5 .............................................................................................. 42 Dytran ................................................................................................................................................................................... 43 DYT 101 - Introduction to Lagrangian Analysis Using MSC.Dytran ....................................................................................... 43 DYT 102 - Introduction to Eulerian and Coupled Analysis Using MSC.Dytran ..................................................................... 43 Python .................................................................................................................................................................................. 44 PYT 101 – Introduction to Python Scripting Language ......................................................................................................... 44 Contacts ............................................................................................................................................................................... 45 3 TRAINING 2015 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 1,200 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: Solution for simulation of mechanical systems Modeling   Patran: Pre- and postprocessor for modeling, geometry manipulation and loads specification SimXpert: Integrated multidisciplinary work environment for modeling, calculating, result processing, report generation and automation Entry solutions   MSC Nastran Desktop: Modular solution for structure analysis of any kind FEA, AFEA, TFEA: Linear, nonlinear and thermal analysis 4 The Software Digimat is able to construct and simulate the reaction of non-linear composites. 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 Toolkits   Advanced Wind Turbine Modeling (AdWiMo): Customised tool for modeling of wind turbines Adams Tracked Vehicle (ATV): Customised tool for modeling of tracked vehicles Specialist for Acoustic calculations Free Field Technologies (FFT) develops and supports the Actran family of acoustic CAE products.com/50Years-HomeNordic. Our story starts in February 1963 when MSC was awarded the original contract from NASA to commercialize the finite More Information available at http:// http://pages. Not only are we celebrating our 50th Anniversary. Actran is a premier acoustics software solution for simulating acoustics. This is important for the users of Finite Element (FE) . More information available at www. The core aspects lie within the exact determination of material failure. and accurately.html 5 .comting 2014 2014 is a special year for MSC Software.e-xstream.TRAINING 2015  SimDesigner: CAD-integrated.mscsoftware. In combination with the simulation tools of MSC. multi scalable structure modeling. 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.be. vibro-acoustics and aero-acoustics quickly.fft. micro mechanic material calculation and non-linear. but we are embarking on a new Era of Technology. easily. More information available at www.Software as they want to determine the influence of the microstructure of a material on the stability of the end product. e-Xstream enables the simulation of a variety of materials. and position yourself for professional recognition. and training for leading manufacturing companies around the world.com/student-editions Research Assist Program The MSC Software Research Assist Program is a new ecosystem development program aimed at stimulating innovation within research and academic communities.com/msc-registered-consultant-program 6 . on-site simulation projects. students will be ready to begin a career in no time! You can download free licences for MSC Nastran.mscsoftware. Our mission is to collaborate with passionate researchers around the world to persistently explore the horizon of engineering simulation together. Patran.TRAINING 2015 MSC Ecosystems Student Edition MSC Software's Student Editions will provides students with the simulation tools to accurately and reliably predict how the designs will behave in the real world. knowledge transfer. More information available at http://www. More information available at http://www.com/fea-masters-program Registered Consultants The Registered Consultant Program is intended to supplement the highly demanded MSC Software Global Engineering Services Organization with independent consultants who join the team to deliver high value simulation results to MSC customers.mscsoftware. More information available at http://www. More information available at http://www. develop critical thinking and analytical skills at every stage of your program. Spain's largest online university to offer you the chance to obtain an advanced degree in Finite Element Method and CAE Simulation.mscsoftware. Once accepted. It helps prepare you for the multidisciplinary challenges you will face in the new global economy.mscsoftware. implementation. increased pay and new roles at your current or future employer. All licenses can be downloaded in the „ student center“ on the MSC Software website. Consultants who are accepted into the Registered Consultant program become an extension of the MSC Engineering Services team. consultants are eligible to receive many benefits including the opportunity to apply their skills by working on assigned engineering simulation projects such as mentoring. Students will need to present an electronic copy of a valid student ID. Marc and SimXpert. By applying simulation methods in new ways. The National Distance Education University (UNED) is the leader in the implementation of cutting edge technologies applied to distance learning with over 205. and with experience right out of school. Adams.000 students worldwide. It is one of the largest universities in Europe.com/research-assist-program FEA Masters Program MSC has partnered with UNED. The course is designed to help you acquire knowledge. we can jointly develop the technology and products of tomorrow. Employers are constantly relying on simulation software to help eliminate slow and costly physical testing. Our courses place heavy emphasis on hands-on computer laboratory work to accelerate practical skills development for all MSC Software products.com. The trainings in the Nordics will held in Gothenburg. Registration This catalogue contains a selected range of courses that are offered in the Nordic region. Training at Your Facility If you have a number of employees who need training. Available worldwide. we offer the cost effective option of bringing our class to your facility. Discounts We offer discounts for companies who send more than two persons to trainings.se@mscsoftware. they will also help you find the best solutions for your specific needs. To maximize productivity in the use of our simulation tools. To ensure that we can plan our courses adequetly please contact us and register no later than 14 days prior to the planed begin of the course. we offer the courses you want. 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 centers throughout the world.TRAINING 2015 Training Offering MSC offers basic and specialized training in the use of our simulation tools to maximize your investments in our software. MSC will work with your staff to design the course you need. Flexible Training Our trainers will not only demonstrate the use of the software. with the expertise you deserve. and address challenges and process issues familiar to attendees from your organization. Custom Courses If our standard seminar offerings do not meet your training requirements. 7 . onsite training is ideal for groups of engineers or those who need customized instruction on MSC products. MSC can develop a course or set of courses tailored to your specific needs. Every additional atendee recveives a 20% discount. A custom course might include a combination of topics from several standard courses or specialized material not found in any of our standard seminars. Whether you need an introduction to our simulation tools or expert instruction in specialized applications. instructors can tailor the curriculum with companyspecific or industry-specific examples. Some courses are already scheduled for any further queries or to book a training please contact us at info. TRAINING 2015 Calendar January Week 1 Mon Tue Wed Thu 1 Fri 2 Sat 3 Sun 4 2 5 6 17 18 4 19 23 24 25 5 26 13 MAR 101 20 PAT 301 27 9 NAS 101B 16 11 12 8 NAS 101A 15 MAR 101 22 PAT 301 29 10 3 7 NAS 101A 14 MAR 101 21 PAT 301 28 30 31 Week 5 Mon Tue Wed Thu Fri Sat Sun 1 6 2 3 7 8 ADM 740 9 13 14 15 8 16 20 21 22 9 23 ADM 740 10 PAT 302 17 SMX 121 24 NAS 102A 5 SMX 120 ADM 740 12 PAT 302 19 SMX 121 26 NAS 102B 6 SMX 120 7 4 SMX 120 ADM 740 11 PAT 302 18 SMX 121 25 NAS 102A 27 NAS 102B 28 Week 9 Mon Tue Wed Thu Fri Sat Sun 1 10 2 5 ADM 703C 12 ADM 701 19 NAS 106B 26 7 8 9 ADM 701 16 4 ADM 703A+B 11 ADM 701 18 NAS 106A 25 NAS 107 6 11 3 ADM 703A+B 10 ADM 701 17 NAS 106A 24 NAS 107 31 ADM 710 13 ADM 701 20 14 15 21 22 27 28 29 Thu 2 ADM 710 9 Fri 3 Sat 4 Sun 5 10 11 12 Febuary March 12 13 14 23 NAS 107 30 April Week 14 Mon Tue 15 6 7 Wed 1 ADM 710 8 16 13 14 15 16 17 18 19 17 20 21 25 26 27 28 SMX 126 23 MAR 102 30 24 18 22 MAR 102 29 SMX 126 8 . TRAINING 2015 May Week 18 Mon Tue Wed Thu Fri 1 Sat 2 Sun 3 19 4 5 9 10 11 12 17 19 SMX 131+132 26 23 24 22 18 PYT101 25 15 ADM 730 22 16 21 7 NAS133 14 ADM 711 21 SMX 131+132 28 8 20 6 NAS133 13 ADM 711 20 SMX 131+132 27 29 30 31 Week 23 Mon 1 Tue 2 24 25 8 ADM 740 15 26 June Thu 4 NAS 319B 11 ADM 740 18 Fri 5 NAS 319C 12 Sat 6 Sun 7 9 ADM 740 16 Wed 3 NAS 319A 10 ADM 740 17 13 14 19 20 21 22 23 24 25 26 27 28 27 29 30 Week 27 Mon Tue Wed 1 Thu 2 Fri 3 Sat 4 Sun 5 28 6 7 8 9 10 11 12 29 13 14 15 16 17 18 19 30 20 21 22 23 24 25 26 31 27 28 29 30 31 Week 31 Mon Tue Wed Thu Fri Sat 1 Sun 2 32 3 4 5 6 7 8 9 33 10 11 12 13 14 15 16 34 17 20 NAS 110 27 NAS 106B 22 23 24 19 NAS 110 26 NAS 106A 21 35 18 NAS 110 25 NAS 106A 28 29 30 36 31 July August 9 . TRAINING 2015 September Wed Thu 2 3 PAT 301 PAT 301 SMX 120 SMX 120 9 10 ADM 701 ADM 701 16 17 ADM 710 ADM 710 MAR 101 MAR 101 23 24 NAS 101A NAS 101B 30 SMX 400 Week 36 Mon 37 38 7 ADM 701 14 39 21 40 28 SMX 400 Tue 1 PAT 301 SMX 120 8 ADM 701 15 ADM 710 MAR 101 22 NAS 101A 29 SMX 400 Fri 4 Sat 5 Sun 6 11 ADM 701 18 12 13 19 20 25 26 27 Week 40 Mon Tue Wed Thu 1 Fri 2 Sat 3 Sun 4 41 5 42 12 43 19 6 SMX 121 13 NAS 400 20 7 SMX 121 14 NAS 400 21 8 SMX 121 15 NAS 400 22 9 10 11 16 17 18 23 24 25 44 26 NAS 102A 27 NAS 102A 28 NAS 102B 29 NAS 102B 30 31 Week 44 Mon Tue Wed Thu Fri Sat Sun 1 45 2 PYT101 ADM 740 9 PAT 325 3 SMX 131+132 ADM 740 10 PAT 325 SMX 126 17 ADM 703A+B 24 ADM 711 4 SMX 131+132 ADM 740 11 MAR 102 SMX 126 18 ADM 703A+B 25 ADM 711 5 SMX 131+132 ADM 740 12 MAR 102 6 7 8 13 14 15 20 21 22 27 28 29 Fri 4 Sat 5 Sun 6 11 12 13 18 19 20 25 26 27 October November 46 47 16 48 23 49 30 Week 49 Mon 50 51 7 NAS 120 14 52 21 Tue 1 NAS 133 8 NAS 120 15 NAS 319A 22 1 28 29 19 ADM 703 C 26 ADM 730 December Wed Thu 2 3 NAS 133 9 10 NAS 120 NAS 120 16 17 NAS 319B NAS 319C 23 24 30 31 10 . TRAINING 2015 11 . 2015-11. etc. dampers. HMAX. velocities. sliders. etc.09.2015 07.03.2015-13.Complete Multibody Dynamics Analysis with Adams Objective If you are new to mechanical system simulation.) o Curve (cam-follower. screw.2015 Duration 5 Days Price €2875 + VAT ADM 703A+B .Adams/Solver Theory Objective This class is intended for moderately experienced Adams users wanting to expand their knowledge of advanced modeling elements and techniques in Adams/Solver as well as experienced Adams users wanting to expand their knowledge of Adams/Solver theory. The various phases of solution (statics. this course will give you the foundation of skills you'll need to begin using Adams' powerful virtual prototyping. applied loads.03. velocities. transient.) o Joint primitives o Complex (couplers. accelerations. 12 .) o Complex based on system states (displacements. testing.TRAINING 2015 Adams ADM 701 . SI2. pin-in-slot)  Actuate a system with: o Ideal and complex part motion o Applied forces o Gravity  Connect parts with more realistic forces: o Simple (springs.09. An emphasis will be put on tying theoretical concepts back to Adams/Solver solution settings (ERROR. etc. such as: o Standard joints (hinges. kinematics.) o Complex based on test data o Contacts and collisions  Measure quantities of interest (displacements. etc.Advanced Modeling Elements and Techniques . etc. dynamics) will be covered in detail and best practices for each will be identified.). MAXIT. and visualization capabilities. Content  Create parts and organize them into mechanical systems  Connect parts with ideal constraints. and linear simulations  Precisely control and manage your simulations  Investigate test results via animations and plots  Manage files generated and used by Adams/View and Adams/Solver  "Putting it all together" to complete a comprehensive workshop that tests comprehension of modeling elements and techniques discussed in class  Additional topics discussed are: o Importing CAD-based geometry o Performing cam synthesis o Applying joint friction o Performing design studies o Applying sensors to your system Prerequisites None Dates 09. Strategies for creating robust models and sensible solution control settings will be a focus of the course. forces)  Perform static. 11. followed by initialization (IFLAG) and differencing (DFLAG) considerations.2015-18. kinematic and dynamic solvers in Adams  Numerical Methods for root finding.03.03. saving/reloading. body and forces  Theoretical workings of the static.2015 19.11.2015 Duration 2 Days Price €1150 + VAT ADM 703C . forces. etc.2015 Duration 1 Day Price €575 + VAT 13 .03. etc.2015 17.2015-04. followed by the types of Adams/Solver elements which can be over-ridden. 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 Prerequisites A working knowledge of Adams as covered in ADM701 Dates 05. Content  Using existing Adams/Solver libraries  Element types to over-ride.) is covered in detail. Callback subroutine functionality is presented for easy detection of simulation events (convergence.11.Writing User Subroutines in Adams/Solver Objective This class is intended for experienced Adams users wanting to create Adams/Solver user subroutines.) and considerations for threadsafe computations are discussed.TRAINING 2015 Content  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)  Splines  Simple design studies  Mathematical descriptions of constraints. 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 Prerequisites A working knowledge of Adams as covered in ADM701 Dates 03. simulation start/end. Querying Adams/Solver for system state information (displacements. Dealing with user input is considered along with usage of the many built-in utility subroutines. velocities. Initial setup with preexisting libraries is considered. Interpreting results of a multi-run simulation.Parametric Model Building in Adams/View Objective This course is intended for users who want to parameterize their models in order to determine how different modeling parameters influence the design and how to iterate on those to achieve the optimal design using design studies. parameter names.TRAINING 2015 ADM 704A . etc.  Putting it all together to build a custom interface Prerequisites A working knowledge of Adams as covered in ADM701 Dates Contact MSC Software Sweden for more details 14 . o Plotting o Summary tables Prerequisites A working knowledge of Adams as covered in ADM701 Dates Contact MSC Software Sweden for more details Duration 2 Days Price €1150 + VAT ADM 704B . buttons.) o Accessing database objects and their component values  Creating a parametric model using: o Construction points o Design variables o Expression builder o Graphical tools o Table editor  Performing multi-run simulations to better understand and improve overall system behavior o Design study o Design of experiments (DOE) o optimization  Creating design objectives and design  Constraints for your system. Content  Introduction to parameterization  Understanding expressions used in a parameterized model o Built-in AdamsView functions (location. etc. parameter values o Conditional constructs (if/then/else.Automating Tasks using Adams/View Scripting. and GUI Customization Objective This course focuses on automating tasks in Adams/View for efficiency. Macros. The Adams/View Command Language is studied in detail along with looping.) o Using command files to perform tasks  The macro language and macro structure  How to create and access macros to automate common tasks  Creating custom dialog boxes o Using the dialog box builder o Defining labels. options menu. orientation. design of experiments (DOE) and optimization capabilities in Adams/View. fields. o Become familiar with underlying commands  Creating custom menu. etc. for loops. Content  Adams/View command language and structure o Commands – keywords. macros and the creation of custom menus and dialog boxes. modeling. dynamic.TRAINING 2015 Duration 2 Days Price €1150 + VAT ADM 710 . nonlinear. Linear State Equations. 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.mtx files. and Easy5  Function evaluation mode and co-simulation mode  Interactive and batch mode simulations  Using initialization commands 15 . along with tutorials. Differential Equations. add forces/torques. 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. but not a requirement.2015 15.adm files. use measures)  Adams/Solver dataset and Adams/View command language syntax  Using flexible body models with stand-alone Adams/Solver (edit . Previous FEA experience is a plus. including State Variables. generate . The course is primarily focused on using component modal synthesis via the Modal Neutral File (MNF) and Adams/View. table of eigenvalues.g. connect flexible part to rigid parts. Content  Adams/Controls terminology  Defining inputs/outputs for Adams models to tie to controls  Adams Interface elements provided by Adams/Controls for MATLAB. Techniques for combining linear.04. snapshot images. You will be comfortable using Adams/Flex after taking this course Content  Modal Flexibility: Theoretical background. and sampled control systems with your Adams model will be presented.2015 Duration 3 Days Price €1725 + VAT ADM 711 . control systems) supplemental to your mechanical model. continuous. Other topics presented in the course include an overview of all System Elements. include model files)  Reviewing several application examples  Reviewing/Discussing methods for generating MNF from FEA packages  Introduction to Adams/ViewFlex Prerequisites A working knowledge of Adams as covered in ADM701 Dates 31. animation)  Validating Adams/Flex results with FEM results and hand-calculations  Modeling considerations  Debugging  Modeling contact with a flexible body  Using a modal force (MFORCE) to define a pressure load  Publishing simulation results on the web (generate movies. and General State Equations to develop models (e. submit simulations)  Performing static.Control System Integration with Adams using MATLAB or Easy5 Objectives You will learn how to connect your Adams models to control systems developed in MATLAB or Easy5.2015-02.09. and eigenvalue analyses  Exporting loads from Adams/View  Methods for optimizing MNFs  Comparing results of rigid and flexible models (plotting.Flex Body Dynamics and Modal Stress Recovery using Adams Objective You will learn how to use Adams/Flex to incorporate flexibility into your Adams models.09.2015-17.03. 05. Content  Defining the input channels from which you will actuate (shake) the model: Kinematics (Disp.Frequency Domain Analysis using Adams/Vibration Objectives This course is intended for users who want to perform frequency-domain analysis. Force..05.Design of Experiments (DOE) and Stochastics (Monte Carlo) Analysis using Adams Objectives After taking this course you will be able to:  Create Factors and Responses in your model  Understand how Design Variable range settings work  Create complex Response definitions in Adams  Understand DOE Screening/Response Surface Strategies  Be comfortable with DOE output statistics  Create Monte Carlo variation studies  Effectively create and run large design variation studies Content  Factors and Responses  Parametrics  Classical DOEs  Results Interpretation  Using the ASCII Conduit  EASY5 and Adams/Insight 16 .). PSD. transfer functions. User-defined  Defining the output channels from which to analyze the simulation  Performing vibration analysis in batch mode using Python  Vibration analysis of modeling containing flexible bodies  Using Desing Evaluation to minimize frequency response  Brief section on theory Prerequisites A working knowledge of Adams as covered in ADM701 Dates Contact MSC Software Sweden for more details Duration 1 Day Price €575 + VAT ADM 730 . Vel.. State Variables  Working through examples that demonstrate each available option for actuating the system: Swept sine.2015 Duration 2 Days Price €1150 + VAT ADM 720 . and general state equations Examples using Control System Import with Easy5 and MATLAB Prerequisites A working knowledge of Adams as covered in ADM701 Dates 13.TRAINING 2015   Control system examples with differential equations.2015-14. you can study forced vibrations within the Adams model at isolated instances. Using Adams/Vibration.2015 24.11. Rotating Mass. linear state equations.11. The results from Adams/Vibration can be used in noise/vibration/harshness (NVH) studies. and Accel.2015-25. This is taught using built-in tools that allow for the creation of fully parameterized and modularized vehicle models in the Adams/Car environment.  Creating gear systems: o Spur. Content  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. detailed & 3D contact types  Creating Belt Systems: o Smooth.2015-05. bushings.2015-11.Vehicle Modeling and Simulation using Adams/Car Objective Experienced Adams user can learn how to automate the process of performing general and customized vehicle simulations. Content  Introducing the Adams/Machinery wizard  Adams/Machinery database structure for components.2015-05.02.11.11.2015 Duration 4 Days Price €2300 + VAT ADM 750 . dampers.2015 08.  Overview on how to implement flexible bodies Prerequisites A working knowledge of Adams as covered in ADM701.2015 02.2015 Duration 1 Day Price €575 + VAT ADM 740 .05. Correlation Prerequisites A working knowledge of Adams as covered in ADM701 Dates 15. etc. etc. General vehicle knowledge (vehicle dynamics.) preferred Dates 02. bump stop. chains or gears with Adams/Machinery.Gear.TRAINING 2015  Monte Carlo Analysis. V-grooved & toothed belts 17 . suspension design.02.11. parametrics. etc.2015 26. and Chain Modeling with Adams/Machinery Objective For users wanting to build detailed models containing belts.06. helical & bevel gear types o Simplified.06. Belt. Nastran are illustrated with numerous example problems.2015 Duration 2 Days Price €1150 + VAT 18 . Constraints  Material properties. and guidelines for efficient solutions are discussed.09. fixed and translational Simulation speed and robustness guidelines for typical machinery systems Prerequisites A working knowledge of Adams as covered in ADM701 Dates Contact MSC Software Sweden for more details Duration 1 Day Price €575 + VAT MSC Nastran NAS 101A .Nastran user to the basic ASCII input requirements for linear static and normal modes analysis of structures.Nastran data structure and element library.2015 22. This seminar (or NAS120) provides the foundation required for intermediate and advanced MSC. Dates 07.Nastran entries for normal modes analysis  Buckling theory  MSC.2015-23. Methods of computation  MSC.01. Parameters  Natural frequencies and normal modes  Governing equations.Nastran input data  MSC. Normal Modes and Buckling Analysis Objective The purpose of this seminar is to introduce the new MSC.2015-08. Rigid elements. Data selection  Subcase definition  Bulk data section  Coordinate systems. Symmetry. Many important features of MSC. Elements  Intermediate modeling practices  Set notations.Nastran entries for buckling analysis  Introduction to the file management section  Restarts.09. Geometry.01. No previous finite element analysis experience is required. Content  Introduction to finite element theory and finite element modeling  Overview of MSC.TRAINING 2015   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.Nastran solution sequences  Case control section  Output requests. Databases  Overview of advanced capabilities Prerequisites A basic knowledge of statics and strength of materials is highly recommended. Modeling recommendations. Model debugging. modeling practices. model debugging.Nastran Linear Static.Nastran applications. MSC.Basic MSC. Dates 09.09.Linear Static and Normal Modes Analysis using MSC Nastran.Nastran Dynamic Basic Analysis Objective This workshop is a comprehensive presentation of the dynamic capabilities available in MSC.01. The examples offer the user an effective handling of his problems 19 . No previous finite element analysis experience is required. It covers fundamental and advanced topics with an emphasis on practical applications and example problems.Advanced Linear Analysis using MSC Nastran Objective This course is a continuation of NAS101A . transient response analysis and frequency response analysis. A comprehensive presentation of the dynamic capabilities available in MSC.MSC.2015 Duration 1 Day Price €575 + VAT NAS 102A . RBAR. In this class. These dynamic analysis capabilities include normal mode analysis. and RBE3  Modeling with interface element CINTC and connectors  Lamination theory and composite materials  MSC Nastran composite theory  Failure theories  Linear contact and permanent glued contact  Different model checks  Modeling tips and tricks Prerequisites A basic knowledge of statics and strength of materials is highly recommended.Nastran. 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. you will learn Content  Introduction to finite element theory and finite element modeling  Theory of buckling analysis and how to perform a buckling analysis  About rigid elements – MPC.RBE2.TRAINING 2015 NAS 101B .Nastran is presented in this workshop.2015 24. This includes frequency response. modal effective mass.2015-25.Advanced Dynamic Analysis using MSC Nastran Objective In this class. complex eigenvalue analysis.2015-27. you will be exposed to various aspects of dynamic analysis using MSC Nastran. Content  Review of Basic Dynamic Topics •Mass Properties •Damping •Transient Response •Frequency Response  Direct Matrix Input  General Dynamic Tools •Modal Effective Mass •Mass Check •Mode Selection •Grid Point Kinetic Energy •Modal Participation Factor •Using strain energy to identify dominant modes •Other model check out tools  Residual Vectors  Complex Eigenvalue Analysis  Extra Points.02. Transfer Functions.2015 26. and NOLINs  Test-Analysis Correlation  FRF/FBA/TPA  Introduction to Nonlinear Dynamics  Special Topics in Dynamics •Superelements •Rotordynamics •Acoustics •Design Optimization •Monitor Points 20 .Nastran Linear Static Analysis seminar or equivalent experience) Dates 24.10. dynamic optimization.TRAINING 2015 Content  Review of Fundamentals  Dynamic Modeling Input  Normal Mode Analysis  Normal Modes of Preloaded Structures  Reduction in Dynamic Analysis  Rigid Body Modes  Damping  Transient Response Analysis  Frequency Response Analysis  Dynamic Equations of Motion  Residual Vector Methods  Enforced Motion  Shock and Response Spectrum Analysis  Random Response Analysis Prerequisites Basic MSC.2015 Duration 2 Days Price €1150 + VAT NAS 102B .10. direct matrix input. and test analysis correlation.02. Large strain elements  Contact (interface) elements – Gap . Both geometric and material nonlinearity are discussed in detail.Advancing schemes  Stiffness update schemes  Line search . and practical application.Nastran communication 21 .Nastran Objective This seminar describes the latest heat transfer and thermal stress analysis capabilities beginning with Version 68.Elastoplastic  Creep.10. convection. damping.2015-29. Some practical guidelines for nonlinear analysis are also given.10.Nonlinear Analysis Objective This seminar provides a working knowledge of the nonlinear capabilities of MSC.Convergence and divergence  Restarts  Geometric nonlinear analysis  Large rotations .Follower forces  Linear and nonlinear buckling analysis  Material types  Nonlinear elastic  Hyperelastic (Green elastic) . Example problems are used to clarify the information presented Content  MSC.02.2015 28.Temperature dependent  Nonlinear elements  Small strain elements . Program inputs and interpretation of results for conduction.Nastran elements are explained and several examples are presented.2015-27.TRAINING 2015 Prerequisites NAS101A.Nastran. The seminar attempts to provide a balance between theory. Nonlinear features of MSC.02. its development within the context of MSC.Composite elements Prerequisites A working knowledge of linear static analysis as covered in NAS101.Nastran for static and dynamic analysis. Experience with dynamic analysis and superelement analysis is recommended.Thermal Analysis with MSC. and radiation analyses are covered in detail. or equivalent Dates 26. and NAS102A. and load superelement specification  Restarts  Superelements  Special topics  Nonlinear modal analysis . Content  Nonlinear static analysis strategies  Newton-Raphson method . NAS101B.Slideline  Nonlinear transient analysis  Integration schemes  Mass. Dates Contact MSC Software Sweden for more details Duration 4 Days Price €2300 + VAT NAS 104 .2015 Duration 2 Days Price €1150 + VAT NAS 103 . Convection .Temperature boundary conditions . Dates Contact MSC Software Sweden for more details Duration 4 Days Price €2300 + VAT NAS 105 .Nastran techniques that can be used to obtain better results at less cost are discussed.Redundant analysis methods  Recommendations for dynamic modeling  Performance of reduction techniques . Content  Element techniques  Review of available options .Free and forced convection Thermal loads .Material properties Boundary conditions .Graphical methods .Nastran thermal model Geometry .Radiation The MSC.Symmetry methods  Diagnosing modeling problems  Available diagnostic messages .Phase change Thermal stress analysis Restarts Multimode heat transfer analysis Thermal system analysis Miscellaneous topics Prerequisites Basic knowledge of heat transfer fundamentals.Useful output options . Working knowledge of finite element analysis applications.Mesh transitions and special connections  Constraints and boundary conditions  The "R" constraints .surface elements .Free-body checks .Spectral exchange Transient analysis (SOL 159) TSTEPNL statement .Basic input . and running problems more efficiently.Parameter statements Overview of heat transfer capabilities Conduction .Executive control statements Case control statements .Basic restarts .Singularities . finding errors quickly.Radiation enclosure analysis .Modal synthesis techniques .Transient load methodology Control nodes .Nastran Objective This seminar provides practical advice and guidance in using MSC.TRAINING 2015                      Input data formats .Using the SUPORT entry .Hints to evaluate the quality of modal solutions  Superelements made easy  Single-level models . Special MSC.Approximating frequencies using static analysis .Global-local analysis techniques  Nonlinear analysis  Using linear analysis to model nonlinear behaviour  Overview of cyclic symmetry  Overview of composites Prerequisites NAS101 or equivalent experience. NAS101 or equivalent experience is recommended.Theoretical considerations and modern practices  Accuracy versus shape and mesh size .Practical Finite Element Modeling Techniques Using MSC.Thermal "loads" Thermal transients NASTRAN input data Steady state analysis (SOL 153) NLPARM statement .Radiation boundary condition Radiation view factors .grid points and elements .Nastran for a variety of structural applications.Modeling tricks .detection and cure . Participants will increase their engineering productivity by modeling difficult shapes more easily. Dates Contact MSC Software Sweden for more details Duration 3 Days 22 . Nastran Dynamic Analysis seminar(NAS102) is recommended.2015-18.Primary Superelements Objective In this class. Constraints.08.03. you will be able to: Create external superelements Assemble external superelements and analyze the combined structure along with selective data recovery.2015 Duration 1 Day Price €575 + VAT 23 . Run Static. Parameters. or equivalent.03. Dates 17.Advanced Substructure Analysis using MSC Nastran . Content  Defining Superelements and Terminology  Loads. At the end of the class. NAS106A (Basic Substructure Analysis using MSC Nastran .2015 Duration 2 Days Price €1150 + VAT NAS 106B .Primary Superelements).2015 25. analyze superelements in static and dynamic analyses (including component modes).Basic Substructure Analysis using MSC Nastran . and Case Control  Multilevel Superelement Analysis  Component Modes. and Assembly  Model Checkout Tools  Database and Restarts  Dynamic Analysis with Superelements  Nonlinear Analysis Prerequisites NAS101 or equivalent experience. You will learn how to perform restarts using superelements and incorporate superelements with nonlinear analysis.TRAINING 2015 Price €1725 + VAT NAS 106A . and set up both single and multi-level superelement analysis. Reduction.08. NAS120 (Linear Static Analysis Using MSC Nastran and Patran).2015-26.08.2015 27. and Temperature loading on External superelements Use External Component in Optimization Solution Sequence Create and Use Image and Mirror Superelements Content  External Superelement  Additional Topics and Special Cases for External Superelements  Image Superelements Prerequisites NAS101A (Linear Static and Normal Modes Analysis using MSC Nastran).Secondary Superelements Objective This class deals primarily with secondary superelements. Dynamic. you will learn how to define superelements.03. MSC. Dates 19. part I  Design modeling II  Design variable linking and reduced basis formulations . It is possible to design for a variety of user-defined objectives such as minimum weight or maximum frequency. part II  Interpretation and utilisation of optimisation results  Structural Optimisation . including typical applications. The concept of a design model is introduced.Constraint deletion  Formal approximations .2015-25. are covered in detail. Numerous example problems reinforce the material covered in the lectures.Constrained and unconstrained minimisation techniques  Convergence testing .Formulation of synthetic design variable to property relations Formulation of synthetic responses . This seminar covers the theoretical and practical aspects of MSC.Optimisation with MSC.Design model definition procedure . and constraints .Nastran features a comprehensive design sensitivity and optimisation capability. Dates 23.Taking advantage of the approximation concepts in MSC. Content  What is design optimisation? .The basic optimisation problem statement  Introduction to numerical optimisation  The concept of a design space . and modal transient response optimisation  Superelement optimisation  Overview of capabilities and general considerations .TRAINING 2015 NAS 107 . The process of optimising a structure is discussed from initial modeling to interpretation of results.Design variable linking .Case control structure Prerequisites NAS101 or equivalent experience. modal frequency.choosing the design variables.2015 Duration 3 days Price €1725 + VAT 24 .Nastran  Design sensitivity analysis-theory and utilisation as a design tool  Shape optimisation  Introduction and theory .03.General considerations .the theory of structural optimisation  Introduction to approximation concepts .Overview of methods  Dynamic response  Optimisation .Design optimisation input.theory and practice  Coupling numerical optimisers and structural analysis .Shape basis vectors in the design model .Design optimisation input. objective. The capabilities of the program.Basic equations: direct frequency.Nastran design sensitivity and optimisation: emphasis is placed on using the program to solve practical engineering problems.03.Nastran Objective MSC.Numerical aspects of interest to the design engineer  Design modeling I  Analysis versus design modeling . DMAP and Database Applications in MSC. and manipulation of databases. and NDDL.Assignment.Data block type and status  Utility modules  Matrix modules  How to build and run a DMAP sequence  How to store a SubDMAP  Input/output to a DMAP sequence  Parameter specification  Looping in a DMAP sequence . operators.Nastran. expressions.08.Nastran. Examples are provided that illustrate typical uses for all major topics. and functions . This automatic representation of laminated composites is available in all MSC Nastran solution sequences. orientation. This seminar also provides experienced users with the knowledge to perform sophisticated tasks in MSC. Experience with additional solution sequences and super-element analysis is helpful. initialisation. Content  Introduction to composites in MSC Nastran  Composite bulk data entries  Overview of classical lamination theory o Industry definitions o Application to MSC Nastran  Composite postprocessing o Lamina stresses and strains o Interlaminar shear stresses and strains  Ply failure theories 25 . DMAP structure. The Patran composite pre.Control statements . MSC Nastran allows the user to specify the material properties.08. The DMAP language contains powerful matrix instructions as well as flexible scalar variable (parameter) operations. This seminar describes how to use MSC Nastran for practical analysis and design optimization of composite materials. and thickness for each lamina in the composite layup.2015-20. Details are presented on the structured solution sequence (SOLs 100 through 200).Nastran Objective (DMAP) is a macro language used to build and modify solution sequences in MSC. 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. The program then calculates the properties of the equivalent plate. however stresses. The File Management Section (FMS) is used for the attachment. In addition. and nonlinear statics.and post processing is also shown. MSC Nastran can be used for multi-disciplinary structural optimization of laminated composite materials.Composite Material Analysis with MSC Nastran Objective MSC Nastran can be efficiently and effectively used to model laminated composites.Parameters .TRAINING 2015 NAS 110 . and failure indices can be recovered at the lamina level for only statics.How to CALL a SubDMAP  DBLOCATE and ACQUIRE FMS statements  How to store a data block  Structured solution sequences  Common user errors and pitfalls  Diagnostic tools and debugging Prerequisites NAS101 or equivalent experience. Content  Introduction  Sample DMAP instructions and sequence . Such tasks include the creation of DMAP sequences with subDMAPs and the creation of a solution sequence (delivery) database.FORTRAN versus DMAP  Fundamentals  Module and statement format and syntax . Dates 18.2015 Duration 3 Days Price €1725 + VAT NAS 113 . normal modes. strains. Patran.Nastran and MSC.Linear Structural Analysis with MSC. Content  Interior Acoustics  Exterior Acoustics  Coupling of structure to fluid  Modal and Direct Approach  Participation Factors  Equivalent Radiated Power  Virtual Mass  High Frequency Acoustics  Acoustic Optimization Prerequisites NAS101A (Linear Static and Normal Modes Analysis using MSC Nastran). model validation. Dates Contact MSC Software Sweden for more details Duration 3 Days Price €1725 + VAT NAS 120 . Tsai-Wu.Patran Objective This seminar introduces basic finite element analysis techniques for linear static. Hoffman. NAS120 (Linear Static Analysis Using MSC Nastran and Patran). the element library.Nastran and MSC. and buckling analysis of structures using MSC. and maximum strain Interlaminar shear Modal analysis with composites Nonlinear composite analysis Optimization of composites Composite use in other solution sequences Laminate Modeler Prerequisites NAS101A (Linear Static and Normal Modes Analysis using MSC Nastran) or equivalent experience Dates Contact MSC Software Sweden for more details Duration 3 Days Price €1725 + VAT NAS 115 . and guidelines for efficient solutions are discussed and illustrated with examples and workshops. normal modes. Content  Introduction to finite element theory and finite element modeling  Anatomy of the MSC. and visualise results.Nastran data structure.Fluid Structure (Acoustic) Analysis using MSC Nastran Objective Acoustics is the study of noise.TRAINING 2015       o Hill. manage analysis submission requests. MSC.Patran will be an integral part of the examples and workshops and will be used to generate and verify illustrative MSC. NAS101B (Advanced Linear Analysis using MSC Nastran).Nastran models. modeling practices. or equivalent experience.Patran  Creating geometric representation of structure  Defining material and element properties  Constraining the model  Loading the model  Meshing the model 26 .Nastran applications.Nastran input file  Model generation and verification using MSC. MSC. This seminar (or NAS101) provides the foundation required for intermediate and advanced MSC. In this class you will be exposed to various aspects of acoustics including the coupling and interaction of acoustics with structures. Nastran SOL 600.Nastran.Patran and execute it using MSC.12.Dynamic Structural Analysis with MSC. The student will learn how to identify the nature of the dynamic problem.Nastran theory and methodology will be covered which allow the student greater insight into the process.Patran Objective This course covers an integrated approach to dynamic analysis using MSC.2015-10. set up the problem appropriately in MSC..Nastran output files and their interpretation Results visualisation using MSC.Nastran SOL600 is the nonlinear capabilities of MSC.Patran will be made to explore the results of the analysis in depth.Nastran.Patran and MSC.2015 Duration 4 Days Price €2300 + VAT NAS 122 .Patran Model debugging tools and recommendations Tips for solving large problems Prerequisites A basic knowledge of statics and strength of materials is highly recommended.Nastran input file into MSC.Nastran and MSC. Finally extensive use of MSC. MSC.12.Seminar Class: MSC Nastran Implicit Nonlinear (SOL 600) Analysis Objectives This seminar presents how to perform implicit nonlinear analysis using MSC. Content  Review of Fundamentals in Dynamics  Dynamic Modeling 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 Prerequisites PAT301 and NAS101 seminar or NAS120 seminar Dates Contact MSC Software Sweden for more details Duration 4 Days Price €2300 + VAT NAS 123 . Details of the MSC. Content • Overview of Nonlinear Analysis Using Msc.MARC delivered in an MSC.TRAINING 2015           Model verification Generating and submitting a ready-to run MSC.Nastran Sol 600 • Numerical Concepts in Nonlinear Analysis 27 . Dates 07.Patran MSC. SOL 600 provides FEA capability for the analysis of 3D contact and highly nonlinear problems.Nastran user interface. No previous finite element analysis experience is required.Nastran input file Linear static analysis Normal modes analysis Buckling analysis Importing an existing MSC. Students will prepare short duration structural dynamic analyses using MSC Nastran finite element models. its development within the context of MSC Nastran. They will also learn how to set up the jobs for running the models and review the results for these models.Thermal Analysis using MSC Nastran (SOL400) Objectives This 3 day seminar describes heat transfer and thermal stress analysis capabilities in MSC Nastran's SOL400. convection. and radiation analyses are covered in detail. and Loading  Conduction with Elements and Materials  Convection Thermal Analysis  Transient Thermal Analysis  Radiation Thermal Analysis  SOL400 Coupled Load Cases  Thermal Analysis Theory Prerequisites NAS101 or equivalent is recommended Dates Contact MSC Software Sweden for more details Dauer 3 Days Price €1725 + VAT NAS 126 . Program inputs and interpretation of results for conduction. Content  Introduction to Thermal Analysis  Surface Elements. Mesh Considerations. loads. Example problems are used to clarify the information presented. Students will learn how to create and/or modify material properties. and boundary and initial conditions for dynamic simulation models. Constraints. 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 Prerequisites NAS101 or equivalent is recommended Dates Contact MSC Software Sweden for more details Dauer 3 Days Price €1725 + VAT NAS 124 . The seminar attempts to provide a balance between theory.Explicit Nonlinear Analysis (SOL700) using MSC Nastran and Patran Objectives NAS126 is an introductory course in dynamics simulation using Explicit nonlinear analysis. and practical application. Content • Explicit Transient Dynamic Analysis • Input file format • Patran Graphical User Interface • Running MSC Nastran SOL 700 • Lagrange Basics 28 .TRAINING 2015 • • • • • • • • • •  Element Library. or equivalent Dates Contact MSC Software Sweden for more details Duration 3 Days Price €1725 + VAT NAS 127 . or (PAT301 and NAS101).Rotordynamic Analysis using MSC Nastran Objectives This course covers:      Rotordynamic analysis for coupled rotating and stationary components o For example: Jet Engines. Energy Storage Devices How to setup and analyze structural models with one or more rotating components The types of analysis supported by the rotordynamics capability o Static analysis o Complex eigenvalue analysis (modal and direct) o Frequency response (modal and direct) and nonlinear frequency response o Transient response (direct linear and nonlinear) Damping effects and input methods for models with rotating components How to use Patran to create models and display results with animation or graphs There are two sets of workshops for this course. Content  Theory o Static Analysis o Complex Eigenvalue Analysis o Frequency Domain Analysis o Time Domain o Multiple and Reference Rotors  New Forms of Damping Input o Damping Input Entries o Rotordynamic Bulk Data Entries o Parameters  Patran Support  Example Cases o Line Model without Superelements o 3D Example o Frequency Response o 3D-2 Rotor Model o Typical Commercial Jet Engine o Hybrid Damping  Nonlinear Frequency Response Prerequisites NAS120 (Linear Static Analysis Using MSC Nastran and Patran) and NAS122 (Basic Dynamic Analysis Using MSC Nastran and Patran) or NAS102A (Dynamic Analysis using MSC Nastran) and NAS102B (Advanced Dynamic Analysis Using MSC Nastran).TRAINING 2015 • • • • • Element Library Material Models Lagrangian Loading Conditions Lagrangian Boundary Conditions Contact Definition and Analysis Prerequisites NAS120. Dates Contact MSC Software Sweden for more details Duration 2 Days 29 . The other directly edits the MSC Nastran input file.and post-processor. One set uses Patran as the pre. Compressors. Turbines. dynamics. Content  Concepts of Contact in Linear MSC Nastran Analysis  Defining and Creating Contact Bodies  Job Setup  Contact Detection  Contact Tables  Fundamental Contact Controls to Obtain Convergence in Linear Analysis  Glued Contact  Shell Contact  Friction  Interference Fit  Contact Results Output Prerequisites NAS120 (Linear Static Analysis Using MSC Nastran and Patran) or PAT301 (Introduction to Patran). and interpretation of results. This includes setting up contact bodies. This class will show that the basic principles of fatigue life estimation are relatively straightforward and certainly within the role of typical stress. and FEA design engineers.12. Multiaxial Fatigue and MBS  Offshore Structures and Fatigue Prerequisites The course will give a basic overview of the methods – but from a quite unconventional perspective (concept rather than 30 . Dates 06. both touching and glued contact.12.2015 Duration 2 Days Price €1150 + VAT NAS 319A .2015-02. Wheels Fatigue.TRAINING 2015 Price €1150 + VAT NAS 133 . durability and damage tolerance calculations will be presented with a particular emphasis on conceptual behavior. Although MSC products will be used to show example problems the course material will be independent of any software products and generally focused on the technology rather than specific software products. NAS101A (Linear Static and Normal Modes Analysis using MSC Nastran).Contact Analysis using MSC Nastran and Patran Objectives In this class you will be exposed to different ways of using contact in MSC Nastran's Linear Static and Normal Modes solutions.Fatigue & CAE Integration Objective A state of the art view of CAE based fatigue.05. and NAS101B (Advanced Linear Analysis using MSC Nastran) or equivalent.2015 01.2015-07. Content  History of Fatigue Methods and Their Integration into the CAE Environment  The concept of FE Based Fatigue Analysis  Background to Dynamics For Fatigue Analysis  Step By Step Process For Static and Dynamic Models (Both Time and Frequency Domains)  Background Fatigue (Stress Based)  Materials Considerations  Loading Considerations  Stress-Life Based Fatigue in More Detail  Strain-Life Based Fatigue  Fracture Mechanics and Crack Propagation (Brief Treatment Only)  Accelerated Testing Techniques  Composites and Non-Metallic Materials  An Introduction to Weld Analysis. Patran is used for preand post-processing.05. 2015 Duration 1 Day Price €575 + VAT NAS 319C . So no prior knowledge of fatigue analysis techniques or dynamics is required. Alternative environments will be available including Patran. Random. Irregularity Factor. MSC Nastran (from 2014 onwards) and non-product based (Microsoft Excel and command prompt driven). Root Mean Square (RMS) Value & Moments  Hand Calculations From a PSD  Options For Calculating Fatigue Life From PSDs  Vibration Fatigue Solvers .Random v Deterministic  Frequency v Time Domain  System Transfer Functions (Frequency Domain)  How Transfer Functions Work  FFTs and PSDs  Calculating PSDs From Time Signals .This course will include numerous hands-on fatigue exercises as well as fully computerized approaches. Steinberg.TRAINING 2015 equation driven). This course covers vibration fatigue which brings together structural dynamics. Content  Time Based Methods o Static o Transient o Modal Participation Factor 31 .Practical Implementation of Fatigue Methods with MSC Nastran.12. Patran and Other Applications Objective A state of the art perspective of how practical fatigue calculations are implemented within computer based environments.2015 15.Narrow Band. Content  Vibration Environments . and Reliability  Loads and “Cross PSDs”  Gaussian. Wirsching. and fatigue analysis in order to show how systems with dynamic (resonant) response can be assessed for fatigue life. Probability. Dirlik  Case Studies Related to Frequency Based Fatigue Prerequisites The course will give a basic overview of the methods – but from a quite unconventional perspective (concept rather than equation driven). and Stationary Data  Zero and Peak Crossing Rates. FEA. Dates 04.06.11. The latest fundamental developments (theories and implementations) in the field will also be presented. The latest fundamental developments (theories and implementations) in the field will also be presented.2015 Duration 1 Day Price €575 + VAT NAS 319B .Buffers and Window Averaging  Classifying Time Signals and PSDs  Statistics. Dates 03. Although MSC products will be used to show example problems the course material will be independent of any software products and generally focused on the technology rather than specific software products.Fatigue & Dynamics . So no prior knowledge of fatigue analysis techniques or dynamics is required.2015 16.06.The Reliability of Vibrating Systems Objective A state of the art view of fatigue calculations for dynamic systems and vibration environments (such as that defined in military standard MIL-STD-810). NAS120 and NAS103) is required. contact.06.2015-15. Dates 05. This includes large deformation. heat transfer.TRAINING 2015  Frequency Based Methods o PSD Based Fatigue Prerequisites The course will give a basic overview of the methods – but from a quite unconventional perspective (concept rather than equation driven). Dates 13.2015 Duration 3 days Price €1725 + VAT 32 .12.2015 Duration 1 Day Price €575 + VAT NAS 400 . analysis chaining.10. advanced nonlinear material. Content  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 Prerequisites Basic knowledge in Nastran (NAS101.Seminar MSC Nastran – SOL 400 Objective NAS400 covers various aspects of implicit nonlinear analysis using MSC Nastran and Patran. The latest fundamental developments (theories and implementations) in the field will also be presented. and nonlinear transient dynamics. So no prior knowledge of fatigue analysis techniques or dynamics is required.10.2015 17. 2015-22. application of advanced geometric construction techniques. access MSC.01.5-D meshing. Sample topics covered by PAT302 include: advanced MSC. and viewing techniques  Practice using the different meshing techniques: isomesher.Patran Command Language (PCL) files for session customisation.Advanced use of MSC. mesh smoothing o Global-local and thermal-structural modeling using FEM fields o Advanced Surface Mesher o Advanced node and element editing techniques  Post-processing and advanced graphical results display 33 .2015 Duration 3 Days Price €1725 + VAT PAT 302 . Content  Take a model through the complete design and analysis cycle  Import CAD geometry and use it to create new geometry in MSC. and command line options o Database/model manipulation using group transformation and database merge capabilities o Customizing the toolbar and start-up environment   Discover advanced geometry modeling and CAD access features o Advanced construction and editing techniques o Repair non-topologically congruent (i.Patran efficiency and help you customize your work environment o Wildcards.Patran Objective PAT302 provides an in-depth examination of the advanced features of MSC.09. generation of constraint equations (MPCs) to define physical relationships.Patran. 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 Prerequisites No previous experience is required but an understanding of FE techniques is desirable.09. submit their job for analysis and postprocess results in varying formats. definition of fields to represent spatially varying functions for loads and boundary conditions. PAT301 emphasises practical skills development through comprehensive. list processor syntax. create boundary conditions. automated and 2. paver. keywords. define material properties. "dirty") geometry  Apply advanced finite element modeling capabilities o Mapped.2015 01.Patran features usage for meshing and mesh refinement.Patran  Learn graphics manipulation.Patran.Patran's material libraries for material properties. imaging.e.01.TRAINING 2015 Patran PAT 301 . hands-on laboratory sessions. and creation of sophisticated multi-effect graphical images. Students will learn to build analysis models using MSC.2015-03. use of various MSC. Dates 20.Patran users. Content  User interface shortcuts and advanced capabilities to your MSC.Introduction to MSC. Students will master the basic skills required to use MSC.Patran Objective PAT301 is the introductory course for new MSC..Patran in typical MCAE applications. crack initiation. materials.Patran.Patran modeling o PCL syntax. build same part but vary length.Fatigue. Exercises include the development of PCL code to create a fully parameterized finite element analysis model for use in shape optimization and design studies.2015-12. Dates 10.Patran Command Language (PCL) Basics o PCL programming in conjunction with MSC. Aimed at the MBS or FE analyst with no previous experience of fatigue analysis. usage of database access calls.Basic Durability and Fatigue Life Analysis Using MSC Fatigue Objective This course introduces basics and advanced methods for evaluation and estimation of fatigue life using MSC. operators. etc. and text report o Numerical methods: data averaging and extrapolation o Using multiple Insight tools MSC. compiling. crack propagation and vibration fatigue methods.Fatigue. variables.e. start your own analysis code processing)  Parametric Modeling (i. Students will build practical skills by performing 17 PCL programming exercises in multiple laboratory sessions. Topics include basic PCL syntax. directives.02. A variety of examples and hands-on sessions provide detailed coverage of the software user interface including loading. Dates Contact MSC Software Sweden for more details Duration 5 Days Price €2875 + VAT PAT 318A .TRAINING 2015  o Advanced capabilities of results. Content  File I/O (create and parse a text file)  Spawn UNIX command from Patran (i. Content  Overview of Durability and Fatigue Life Analysis  Overview of Fatigue  MSC Fatigue User Interface  Stress-Life (S-N) Method  Strain-Life (E-N) Method  Vibration Fatigue 34 . The theoretical background is covered along with practical issues regarding the integration to MBS/FE environment and the usage of MSC.. Insight.02. width or radius of the part)  Dynamic memory allocation  Create a Graphical User Interface (GUI)  General PCL syntax and usage Prerequisites PAT301 (Introduction to Patran) or comparable experience. slidebars.e. arrays and libraries o Write a PCL routine to automate parameterized geometry creation Prerequisites PAT301 or equivalent experience in the use of MSC. debugging. handling interrupts from an eventdriven system. and results visualisation capabilities. the course is an ideal introduction to the basic concepts of total life.Automating Tasks and Basic GUI Customization Using the Patran Programming Command Language (PCL) Objective PAT304 provides students with a comprehensive overview of the Patran Command Language (PCL) for site integration and user programming. Familiarity with C or FORTRAN or Pascal. spawning remote processes from the Patran session. XY plot. creation of user interface objects (widgets) such as forms.2015 Duration 3 Days Price €1725 + VAT PAT 304 . and code management. buttons. A variety of examples and hands-on sessions provide detailed coverage of the software user interface including loading. Aimed at the MBS or FE analyst with no previous experience of fatigue analysis.Patran  Exercise Session  Failure Criteria for Composites  Postprocessing of Composite Analysis Results  Exercise Session  Creation of Ply Materials. Engineers and material scientists involved in the design.Fatigue. Content  Fatigue Crack Propagation  Multiaxial Fatigue  Fatigue of Welded Structures  Software Strain Gauge  MSC Fatigue Utilities  MSC Fatigue Wheels Prerequisites Basic Durability and Fatigue Life Analysis Using MSC Fatigue or equivalent experience Dates Contact MSC Software Sweden for more details Duration 2 Days Price €1150 + VAT PAT 325 .Fatigue. crack initiation. strength of materials. Dates Contact MSC Software Sweden for more details Duration 2 Days Price €1150 + VAT PAT 318B . Illustrate the basic functions of MSC. materials. and results visualisation capabilities. and machine design.Advanced Durability and Fatigue Life Analysis Using MSC Fatigue Objective This course introduces basics and advanced methods for evaluation and estimation of fatigue life using MSC. crack propagation and vibration fatigue methods.Composites Analysis Objective This seminar shows outlines of composites materials theory and the integration between FEM and composites materials. and Layups with Laminate Modeller  Exercise Session  Plies on Doubly Curved Surfaces  Shear Algorithms 35 .Nastran. analysis and manufacture of composite components and structures would benefit from this seminar.TRAINING 2015      Multiple S-N Mean Stress Curves Temperature Corrected Fatigue Aerospace Spectrum File Support Duty Cycle Analyzer Running in Batch Mode Prerequisites Knowledge of engineering fundamentals. The theoretical background is covered along with practical issues regarding the integration to MBS/FE environment and the usage of MSC. the course is an ideal introduction to the basic concepts of total life. Content  Introduction to Laminate Modeller  Introduction to Composite Materials  Review of Material Constitutive Laws and Laminate Stiffness  Creation of Composite Model in MSC.Patran Laminate Modeller and Composite design in MSC. 2015 15.2015-10.09. Content  Material Nonlinearity  Contact  Adaptive Meshing  User Subroutines in Marc  Heat Transfer and Thermal Stresses  Global .2015 Duration 3 Days Price €1725 + VAT MAR 102 .2015-15. No previous finite element analysis experience is required.Patran Dates 09.01. Content  Introduction to Mentat  Nonlinear Finite Element Analysis o Geometrically Nonlinear Analysis o Material Nonlinear Analysis o Modeling with Contact  Resolving Convergence Problems  Numerical Analysis of Nonlinear Problems Prerequisites A basic knowledge of statics and strength of materials is highly recommended.11.Basic Nonlinear Analysis using Marc and Mentat Objective The purpose of this course is to introduce the new Marc user to both Marc and Mentat by lectures and hands on modeling of nonlinear problems.01. material science or equivalent experience Familiarity with MSC.Local (Structural Zooming) Analysis in Marc  Restarts  Performance 36 .09.2015 Duration 2 Days Price €1150 + VAT Marc MAR 101 .Advanced Nonlinear Analysis using Marc and Mentat Objective The purpose of this course is to enhance the current Marc user's understanding of modeling nonlinear problems. Lectures are supported by hands-on modeling of nonlinear problems. Dates 13.TRAINING 2015         Draping Algorithms Creating Splits in Plies Exercise Session Manufacturing Integration Exporting Flat Pattern Springback Analysis Exercise Session Optimisation of Composites Prerequisites A degree in engineering.11.2015-17. 2015 11.Elastomer Analysis using Marc and Mentat Objective 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.Curve Fitting of Uniaxial Material Data o Run Simulation o Understand Physical and Numerical Results  Biaxial Tension/Compression Testing o Specimen setup and test o Set up model .2015-23.04. Content  Introduction  Overview of Elastomer Testing and Analysis o Test data are dependent on the measurement method o Analysis results are dependent on the mesh o Measurement and Modeling principals  Uniaxial Tension/Compression Testing and Analysis o Specimen setup and test o Set up model .TRAINING 2015  Workshop Problems o Experimental Curve Fitting Using Physical Test Data o Creep of Tube o Superplastic Forming of a Metal Container o Composite Progressive Failure Analysis using VCCT o Elastomeric Cylinder (Segment to Segment Contact) o Ship Bumper Contact Analysis o Global Remeshing o Local Adaptive Remeshing o Creep of a Tube (User Subroutine) o Heat Transfer (Conduction and Convection) o Heat Transfer (Radiation) o Coupled Analysis (Thermal / Structural) o Global – Local (Structural Zooming) o Restarts Prerequisites A basic knowledge of nonlinear simulations .2015 Duration 2 Days Price €1150 + VAT MAR 103 .2015-12.Curve Fitting of Multi Mode Material Data o Run Simulation o Understand Physical and Numerical Results  Pure Shear Testing o Specimen setup and test o Set up model .11.11.Completion of MAR101 (Basic Nonlinear Analysis using Marc and Mentat) or equivalent experience Dates 22.04. Previous finite element analysis experience is recommended.Familiarity with Mentat 2011 .Curve Fitting of Multi Mode Material Data o Run Simulation o Understand Physical and Numerical Results Contact Analysis  Product Simulations with Specimen Data o Definition of contact bodies o Contact and friction o Case Histories of Product Simulations Prerequisites A basic knowledge of statics and strength of materials is highly recommended. 37 . Knowledge of elastomeric materials. Normal Modes.TRAINING 2015 Dates Contact MSC Software Sweden for more details Duration 3 Days Price €1725 + VAT SimXpert SMX 120 .2015 Duration 3 Days Price €1725 + VAT SMX 121 . including composites  Investigate contact Prerequisites A basic knowledge of statics and strength of materials is recommended. apply loads.Linear Statics. the course demonstrates the modeling of flexible bodies in a motion simulation through interaction with the SimXpert Structures Workspace. define material properties. Students will prepare motion models utilizing CAD geometry in SimXpert. and submit their job for analysis and postprocess results. and Buckling Analysis using SimXpert Objective SMX120 is the introductory course for the SimXpert Structures Workspace.2015 01.02. Students will master the basic skills required to use SimXpert in typical Structural applications. SMX120 emphasizes practical skills development through comprehensive.02. Dates 17. Finally. create boundary conditions.Complete Multibody Dynamics Analysis with SimXpert Motion Objective SMX121 is an introductory course in motion simulation using the Motion Workspace in SimXpert. hands-on laboratory sessions.02. model forces. Students will learn to build analysis models using SimXpert. Content  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.2015-06.09.2015 38 . Dates 04. and apply specific motion to parts in order to create motion models.10. Students will learn to create connections between parts. Content  Import of CAD models into SimXpert  Parts in SimXpert Motion Workspace  Result animations  Charting result data  Connections between motion parts  Contact  Forces.09. including spring dampers  Applied motion  Flexible body simulation with structures workspace Prerequisites No prior familiarity with SimXpert is required. Students will also learn to review motion results from these models using animations and charts. model contact and friction.10.2015 06.02.2015-03.2015-19.2015-08. Content (SMX131 Original) 39 . branching. SMX132 In this course students will learn to write scripts in the Python scripting language.04. and boundary and initial conditions for dynamic simulation models. They will create and use Expressions to populate input fields by invoking an external action. Publishing templates to the enterprise via the SimManager portal is also explored. and use the various connection. and review the results for these models using State Plot and Chart. and create objects in the SimXpert database.2015-29. loads. They will know how to modify the SimXpert menus and tool ribbon to display custom actions and scripts. Students will gain the skills to create simulation templates that automate complex and/or repetitive analysis procedures.TRAINING 2015 Duration 3 Days Price €1725 + VAT SMX 126 . modify. In the SimXpert Template Builder learners will build templates that utilize several different workspaces and test them in the Template Execution environment. the basic building blocks of templates. Students will learn how to create and/or modify material and part properties. After completing this course students will understand the SimXpert data model and the major classes in the API and be able to navigate the API documentation to find the appropriate classes and functions for their particular purpose.2015-11. briefly  Import of MSC Nastran models into SimXpert  Parts in SimXpert Explicit workspace  Material Models for Explicit Dynamic Analysis  Elements in Explicit  Loads and Boundary Conditions  Contact Bodies and Contact Properties  Initial Conditions  Selection of Time Steps  Explicit Analysis set-up. Content  Overview of Explicit Dynamic Analysis in SimXpert  Overview of SimXpert  Theory.11.04. Students will prepare short duration structural dynamics models utilizing the imported MSC Nastran finite element models. including nonlinear parameters  Display of Explicit Analysis Results  Hands on Workshops Prerequisites No prior familiarity with SimXpert is required Dates 28.2015 10. Students will also be able to create actions.Explicit Nonlinear Analysis using SimXpert Objective SMX126 is an introductory course in dynamics simulation using the Explicit Workspace in SimXpert.MSC SimXpert Templates/SimXpert Scripting Objective SMX131 is a course that focuses on the SimXpert Template Builder workspace. Note: The content for this combination training will be a mix of the original content in SMX131 and SMX132 below. They will also learn how to set up the jobs for running the models with the Explicit solver. They will create their own custom Template Builder actions. They will learn to use classes and functions in the SimXpert Application Programming Interface (API) to access.2015 Duration 2 Days Price €1150 + VAT SMX 131 + SMX132 . Not everything below will be included. and looping tools to add complexity to a template.11. 2015-30. Normal Modes. and Buckling Analysis using SimXpert) or equivalent Dates 28.2015-05.2015 (Combination course) 3 Days Price €1725 + VAT SMX 400 . This includes large deformation. analysis chaining. you will be exposed to various aspects of implicit nonlinear analysis using SimXpert. and nonlinear transient dynamics. advanced nonlinear material.TRAINING 2015  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 Content (SMX132 Original)  Overview of Python scripting language  Review / overview of the Template Builder workspace  Using Script Editor and Debugger tool  Programming approaches  Using the SimXpert Application Programming Interface (API) to obtain data from a model and to create and modify entities o Graphics objects o Finite element modeling o Materials and Properties API o Loads and Boundary Conditions API o Geometry o Analysis Setup and Submittal o Results post-processing o Parts. heat transfer. Groups.11.2015 (Combination course) 03. and Sets  Different ways to invoke Actions in SimXpert  Creating and using Expressions  Creating and using Custom Attributes Prerequisites SMX101 is recommended before taking SMX131+SMX132 Dates Duration 19.05. contact.09.11. Content  Nonlinear versus Linear Analysis  Iterative Solution Methods  Advanced Nonlinear Materials  Nonlinear Elements  Contact Analysis  Heat Transfer  Nonlinear Transient Dynamics Prerequisites SMX120 (Linear Statics.Nonlinear Structural Analysis using SimXpert Objective In this class.05.09.2015 Duration 3 Days Price €1725 + VAT 40 .2015-21. in part. Content  General Theory of Hydraulic Modeling in Easy5  Modeling an Open Loop Oil Cooling System  Obtain Initial Operating Points  Fluid properties  Modeling 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 Hydralic Lift  Using HC library components to create larger component  Reverse flow in a hydraulic system  Minimizing number of pressure states  Simulating Waterhammer Effects  Disaster Recovery .TRAINING 2015 Easy5 EAS 101 . transfer function calculation. Students learn to calculate stable operating points using the Easy5 Steady-State Analysis.Easy5 Modeling Simulation of Fluid Power Systems Using Easy5 Objective This course has been designed to give the hydraulics engineer a basic understanding of the issues and difficulties surrounding modeling and simulation of fluid power systems. frequency response generation. It is geared towards the user who already has a general understanding of the Easy5 modeling. empirical table data. simulation and analysis environment as well as knowledge in the area of hydraulics design. Dates Contact MSC Software Sweden for more details Duration 2 Days 41 . Students learn to represent an existing dynamic system on screen using predefined modeling blocks and components. Content  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 Prerequisites An engineering background. and analysis environment. and root locus analysis.and variable-step integration used during simulation.Easy5 Dynamic System Modeling Simulation and Analysis using Easy5 (Intro Class) Objective This course gives the engineer a basic understanding of the Easy5 modeling. The class also covers the Easy5 set of linear analyses. knowledge of FORTRAN. including. and user-defined FORTRAN components. and an understanding of differential equations. simulation. and are introduced to fixed. Dates Contact MSC Software Sweden for more details Duration 2 Days Price €1150 + VAT EAS 103 .How to handle problem models Prerequisites Working knowledge of Easy5 and a basic understanding of the Thermal Hydraulics library. TRAINING 2015 Price €1150 + VAT EAS 105 .Modeling Simulation of Gas Systems Using Easy5 Objective This course will teach you how to use Easy5 to model pneumatic systems and valves. Content  General Theory of Pneumatic Modeling in Easy5  Modeling a Simple Pneumatic Pressure Regulator  Practice basic Easy5 skills  Obtain Initial Operating Points  Difficulties in Obtaining Steady State  Use Steady State to parameterize models  Modeling 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  Modeling and Development with Discrete Components  Modeling Discontinuities with Switch States  Additional topics as interest and time allows including:  Debugging models  How to define and use your own fluid property set Prerequisites Completion of introductory class and/or a working knowledge of Easy5. Dates Contact MSC Software Sweden for more details Duration 2 Days Price €1150 + VAT 42 . It will review some fundamentals that are usually not well understood and provide advanced instructions for features in Easy5. and evaluation of results. Advice is offered on modeling techniques.Introduction to Lagrangian Analysis Using MSC. The capabilities of the program. Hands-on workshops and example problems reinforce the lecture material.Dytran is a coupled Euler-Lagrange code designed to solve fluid-structure interaction problems. This seminar provides an introduction to the Lagrangian capabilities of MSC. and shows how it can be coupled to the Lagrangian. or structural parts.Dytran is designed to solve transient dynamic problems involving a high degree of nonlinearity. This seminar complements the DYT101 seminar.Introduction to Eulerian and Coupled Analysis Using MSC. The emphasis of this seminar is on using the programs to solve engineering problems. provides an introduction to the Eulerian processor. of the model. including typical applications. from initial modeling to the postprocessing of results.Dytran.TRAINING 2015 Dytran DYT 101 . attendees should be able to apply MSC.Dytran Objective MSC. The major capabilities of the program are covered in detail. Content  Overview of MSC.Dytran  Postprocessing using the XDEXTR translator  Workshop on using XDEXTR  Basic concepts of Lagrange  Theory  Computational cycle  User subroutine implementation Prerequisites Experience with a general-purpose finite element analysis application is recommended Dates Contact MSC Software Sweden for more details Duration 2 Days Price €1150 + VAT DYT 102 . Hands-on workshops and example problems reinforce the material covered in the lectures. are covered in detail. By the end of the seminar. In addition. meshing.Dytran capabilities  Differences between Lagrangian and Eulerian technology  Overview of contact and Euler/Lagrange coupling techniques  Typical applications  Explicit transient dynamic analysis  Introduction to explicit solution techniques  Explicit versus implicit technology  When to use explicit technology  Input definition  Overview of the input file  Input file formats and data generation  File management system  Executive control  Case control  Bulk data  Running the analysis  Modeling  Description of the MSC. Advice is offered on modeling techniques.Dytran to the solution of practical engineering problems in structural mechanics. and evaluation of results. In 43 .Dytran files  Example input file  Restarts and rezones  Executing MSC. The primary emphasis is on how to use the program to solve engineering problems. techniques to minimize the cost of analyses are discussed.Dytran Objective MSC. choice of material models. The process of performing an analysis is discussed in its entirety. Content  When to use Eulerian and Euler-Lagrange coupling  Typical applications  Basic concepts of Euler  Finite volume method  General connectivity  Computational cycle  User subroutine implementation  Eulerian capabilities  Euler element library  Material models  Boundary conditions  User subroutines  Workshop example on Euler  General coupling  When to use general coupling  Theoretical concept of general coupling  Input directives  Workshop example on general coupling Prerequisites DYT101 is recommended. techniques to reduce the cost of analyses are discussed. and Standard Libraries  Introduction to class and OOP Prerequisites No prerequisites Dates 18. attendees should have a basic understanding of how to solve fluid-structure interaction problems using an Euler-Lagrange approach. Exception  Module. Tuple. List. Dates Contact MSC Software Sweden for more details Duration 2 Days Price €1150 + VAT Python PYT 101 – Introduction to Python Scripting Language Objective In this course students will learn the basics of Python scripting language. Files  Function.05.2015 02. Content  Introduction  Basic math  String. By the end of the course. Dictionary.2015 Duration 1 Day Price €575 + VAT 44 .TRAINING 2015 addition.11. com/nordic Online Website: www.com 45 .TRAINING 2015 Contacts Offices Hängpilsgatan 6.se@mscsoftware. SE-426 77 Västra Frölunda Tel: +46 (0)31 7485990 Email: info.com Email: info.mscsoftware.mscsoftware.com www.com/nordic Training Tel: +46 (0)31 7485990 Email: info.com [email protected]@mscsoftware.
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