SimScale Professional Training: Structural Mechanics/FEA 2.0
Introduction to the Theory and Practice of FEM for Professionals
Finite Element Analysis (FEA) is now a widely used tool during the product development process. In contrast to physical prototypes, engineers, and designers can virtually simulate their own designs and validate different design concepts early in the development process. The successful use of FEA as a design tool requires an understanding of FEA basics, familiarity with FEA process and commonly used modeling techniques, as well as an appreciation of inherent errors and their effect on the quality of results. When used properly, FEA becomes a tremendous productivity tool, helping engineers and designers reduce product development costs and time to market.
This 5-session course provides engineers and designers with the skills necessary for proper use of FEA in the design process. Participants will first study the theory of the Finite Element Method and then learn about meshing techniques, different analysis types, advanced concepts such as contact mechanics, remote force/displacement, and cyclic symmetry, and potential sources of error.
All topics are illustrated by hands-on examples using SimScale, our web-based engineering simulation platform. Participants can access SimScale with the free Community Plan or with a Professional Plan. Hands-on exercises and quizzes will provide an opportunity to put what is learned into practice.
In each session, you will
- Watch about 1-1.5 hours of lecture videos
- Complete an optional learning exercise on the SimScale Platform
- Take a short quiz to cement your knowledge
Post questions in the forum and receive feedback from the course instructor!
- Agenda & Introduction to SimScale
- SimScale Platform Tour
- The Forum
- Finding Resources
- The Workbench 2.0
- Certification Process
Session 1: Fundamentals of Finite Element Analysis
- The Fundamentals of Finite Element Theory and its governing equations
- The Finite Element Method and solution approaches
- The role of FEA in the product development process
- The FEA capabilities on SimScale and a complete workflow for a structural simulation
Session 2: CAD Preparation and Meshing in Structural Mechanics
- Important steps in CAD preparation for simulation
- How to do a mesh refinement study to develop a simulation-ready mesh
- When to use a first and second order mesh
- The meshing algorithms available on SimScale and how to use them
Session 3: Static Analysis with SimScale
- Complete workflow for a static structural analysis
- Difference between linear and nonlinear analysis with focus on nonlinearity sources
- Methods available on SimScale to solve these nonlinearities
- Overview of relevant case studies demonstrating linear and nonlinear static analysis
Session 4: Dynamic Analysis with SimScale
- Dynamic analysis and its benefits
- Fundamentals of dynamic analysis in the frequency & time domain
- The processes to follow in dynamic analysis for better results
- An overview of some case studies to understand the steps required for performing dynamic analysis with SimScale
Session 5: Advanced Concepts in Structural Mechanics with SimScale
- Advanced boundary conditions including cyclic symmetry and elastic support
- Advanced material properties available on SimScale including material damping and hyperelastic materials
- Physical contacts including friction and fictitious clearance
- Overview of some case studies to gain an understanding of how to handle complex nonlinear contact and harmonic analysis with SimScale
- Thermal Analysis Professional Training Exam
- Exam Answer Form
All future updates in the course are of course for free!
Lecture Slides can be downloaded at the end of the sessions for revision.
By the end of the course, you will have a firm understanding of how to use Thermal Analysis in the product development process and be fully equipped to run successful simulations on the SimScale platform.
“The training helped me a lot to get more familiar with engineering simulation. I highly recommend it!”
- János Horváth, Mechanical Engineer, Hauni Hungaria Gépgyártó Kft
Jousef attends the Karlsruhe Institute of Technology where he obtained his Bachelor's Degree in Dimensioning and Validation of Mechanical Constructions. He currently pursues his Master's Degree in Computational Mechanics and Fluid Mechanics with focus on Turbulence Modeling. At SimScale, he worked as a FEA Application Engineer and is currently the Community & Academic Program Manager actively working with users and student teams all over the world.
StartThe Finite Element Method & History (2:59)
StartFundamentals of the Finite Element Method (FEM) (4:45)
StartMathematical Derivation of the FEM (14:41)
StartDemo: Stress Analysis of a Reclaimer Arm (5:04)
StartExercise #1: Stress/strain Behavior of an Axially Loaded Bar
StartLecture Slides for Session 1