Solidworks Simulation
Prerequisites : Knowledge of SolidWorks and basic mechanical engineering concepts is recommended.
Who should attend: All SolidWorks Simulation users wishing to create better designs in SolidWorks by performing analysis and evaluating the behavior of their parts and assemblies under actual service conditions.
Length: 3 days
Topics Covered:
Introduction
About This Course
What is SolidWorks Simulation?
What Is Finite Element Analysis?
Build Mathematical Model
Build Finite Element Model
Solve Finite Element Model
Analyze Result
Errors in FEA
Finite Elements
Degrees of Freedom
Calculations in FEA
Interpretation of FEA Results
Units of Measurement
Limitations of SolidWorks Simulation
Lesson 1: The Analysis Process
Objectives
The Analysis Process
Case Study: Stress in a Plate
Project Description
SolidWorks Simulation Options
Preprocessing
Meshing
Postprocessing
Multiple Studies
Reports
Lesson 2: Mesh Controls, Stress Concentrations and Boundary Conditions
Objectives
Mesh Control
Case Study: The L Bracket
Project Description
Case Study: Analysis of Bracket with a Fillet
Case Study: Analysis of a Welded Bracket
Understanding the Effect of Boundary Conditions
Lesson 3: Assembly Analysis with Contacts
Objectives
Contact Analysis
Case Study: Pliers with Global Contact
Pliers with Local Contact
Lesson 4: Symmetrical and Free Self-Equilibrated Assemblies
Objectives
Shrink Fit Parts
Case Study: Shrink Fit
Project Description
Analysis with Soft Springs
Lesson 5: Assembly Analysis with Connectors
Objectives
Connecting Components
Connectors
Case Study: Vise Grip Pliers
Lesson 6: Compatible/Incompatible Meshes
Objectives
Compatible / Incompatible Meshing
Case Study: Rotor
Lesson 7: Assembly Analysis Mesh Refinement
Objectives
Mesh Control in an Assembly
Case Study: Cardan Joint
Problem Statement
Part 1: Draft Quality Coarse Mesh Analysis
Part 2: High Quality Mesh Analysis
Lesson 8: Analysis of Thin Components
Objectives
Thin Components
Case Study: Pulley
Part 1: Mesh with Solid Elements
Part 2: Refined Solid Mesh
Solid vs. Shell
Creating Shell Elements
Part 3: Shell Elements - Mid-plane Surface
Results Comparison
Case Study: Joist Hanger
Lesson 9: Mixed Meshing Shells & Solids
Objectives
Mixed Meshing Solids and Shells
Case Study: Pressure Vessel
Lesson 10: Mixed Meshing Solids, Beams & Shells
Objectives
Mixed Meshing
Case Study: Particle Separator
Lesson 11: Design Scenarios
Objectives
Design Study
Case Study: Suspension Design
Part 1: Multiple Load Cases
Part 2: Geometry Modification
Lesson 12: Thermal Stress Analysis
Objectives
Thermal Stress Analysis
Case Study: Bimetallic Strip
Examining Results in Local Coordinate Systems
Saving Model in its Deformed Shape
Lesson 13: Adaptive Meshing
Objectives
Adaptive Meshing
Case Study: Support Bracket
h-Adaptivity Study
p-Adaptivity Study
h vs. p Elements - Summary
Lesson 14: Large Displacement Analysis
Objectives
Small vs. Large Displacement Analysis
Case Study: Clamp
Part 1: Small Displacement Linear Analysis
Part 2: Large Displacement Nonlinear Analysis
Appendix A: Meshing, Solvers, and Tips & Tricks
Meshing Strategies
Geometry Preparation
Mesh Quality
Mesh Controls
Meshing Stages
Failure Diagnostics
Tips for Using Shell Elements
Hardware Considerations in Meshing
Solvers in SolidWorks Simulation
Choosing a Solver
Appendix B: Customer Help and Assistance
Customer Help and Assistance
