In this course you will learn about the advanced capabilities of LMS Virtual.Lab Motion in order to create multi-body models and handle complex types of forces. You will learn how to incorporate finite element models into your own multi-body simulation. We will guide you through the interfacing of LMS Virtual.Lab Motion with external solvers and data sources. We will also show you how to automate processes in LMS Virtual.Lab and apply optimization calculations.
Depending on the input from the attendants, further specific topics and techniques will be reviewed.
Training Content - Standard topics:
- Solver topics (Integrator options, troubleshooting, etc)
- Utilizing CAD Geometry
- Contact Force modeling
- Expressions and differential equations
- Parameterization, Design Tables, and Configurations
- Animation features and post-processing
- Scripting and Journaling
- Flexible body modeling with Stress Recovery
- User Defined Subroutines
- LMS Virtual.Lab Optimization
- Optional topics (based upon attendants interest)
- Exporting Loads for Durability and NVH
- Modeling Controls and Hydraulics
- Cable and Gear systems
- Tracked Vehicle Systems
- Suspension and Full Vehicle modeling
- Tire/Road Interaction
- Exercises
Who Should Attend?
This course is for users who wish to model mechanical systems with greater fidelity and increased efficiency. The sessions on Advanced elements and modeling techniques will provide modeling solutions to many complex physical phenomenon. The sessions on automation, parameterization, and optimization will help the user work more efficiently and gain more knowledge from the analyses.
Previous experience with using LMS Virtual.Lab Motion is essential.
