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SOLIDWORKS Simulation Premium – 4 days

SOLIDWORKS Simulation Premium - Dynamics

Lesson 1 Vibration of a Pipe

  • Objectives
  • Problem Description
  • Static Analysis
  • Frequency Analysis
  • Discussion
  • Dynamic Analysis (Slow Force)
  • Linear Dynamic Analysis
  • Discussion
  • Dynamic Analysis (Fast Force)

Lesson 2: Transient Shock Analysis According to MILS-STD-810G

  • Objectives
  • Problem Description
  • Mass Participation Factor
  • Cumulative Mass Participation Factor
  • Damping
  • Viscous Damping
  • Time Step
  • Model with Remote Mass Remote Mass

Lesson 3: Harmonic Analysis of a Bracket

  • Objectives
  • Project Description
  • Harmonic Analysis Basics
  • Single DOF Oscillator
  • Harmonic Analysis of a Bracket
  • Harmonic Study Properties

Lesson 4: Response Spectrum Analysis

  • Objectives
  • Response Spectrum Analysis
  • Response Spectrum
  • Response Spectrum Analysis Procedure
  • Project Description
  • Response Spectrum Input
  • Mode Combination Method

Lesson 5: Random Vibration Analysis According to MIL-STD-810G

  • Objectives
  • Project Description
  • Distributed Mass
  • Random Vibration Analysis
  • Power Spectral Density Function
  • Overall Level of Acceleration PSD
  • Decibels
  • Random Study Properties
  • Advanced Options
  • RMS Results
  • PSD Results 1s, 2s, 3s, … Results
  • Exercise 1: Random Vibration Analysis of an Electronics Enclosure
  • Exercise 2: Circuit Board Fatigue Estimates

Lesson 6: Random Vibration Fatigue

  • Objectives
  • Project Description
  • Random Vibration Fatigue
  • Material Properties, S-N Curve
  • Random Vibration Fatigue Options

Lesson 7: Nonlinear Dynamic Analysis of an Electronic Enclosure

  • Objectives
  • Project Description
  • Linear Dynamic Analysis
  • Nonlinear Dynamic Analysis
  • Linear vs. Nonlinear Dynamic Analysis
  • Rayleigh Damping
  • Time Integration Methods
  • Iterative Methods
  • Discussion

SOLIDWORKS Simulation Premium - Non Linear

Introduction to Nonlinear Structural Analysis

  • Introduction
  • Types of Nonlinearities
  • Geometric Nonlinearities
  • Material Nonlinearities
  • Solving Nonlinear Problems

Numerical Procedures for Nonlinear FEA

  • Overview
  • Incremental Control Techniques
  • Force Control Method
  • Displacement Control Method
  • Arc-length Control Method
  • Iterative Methods
  • Newton-Raphson (NR)
  • Modified Newton-Raphson (MNR)
  • Termination Criteria

Contact Analysis

  • Introduction
  • Global Contact / Gap Conditions
  • Local Contact / Gap Conditions
  • Troubleshooting for Gap / Contact
  • Problems

Lesson 1: Large Displacement Analysis

  • Objectives
  • Case Study: Hose Clamp
  • Problem Statement
  • Stages in the Process
  • Linear Static Analysis
  • Auxiliary Boundary Conditions Solvers
  • Geometrically Linear Analysis: Limitations
  • Nonlinear Static Study
  • Time Curves (Load Functions)
  • Auto stepping Incrementation
  • Disadvantages
  • Fixed Time Incrementation
  • Analysis Failure: Large Load Step
  • Large Displacement Option: Nonlinear Analysis
  • Fixed Incrementation
  • Linear Static Study (Large Displacement)
  • Advanced Options: Step/Tolerance Options
  • Auto stepping Parameters and Options

Lesson 2: Incremental Control Techniques

  • Objectives
  • Incremental Control Techniques
  • Force Control
  • Membrane Structures
  • Linear Analysis
  • Stages in the Process
  • Project Description
  • Case Study: Trampoline
  • Displacement Control
  • Nonlinear Analysis - Force Control
  • Initial Instability of Thin Flat Membranes
  • Restart Function
  • Analysis Progress Dialog Box
  • Analytical Results for Membranes
  • Nonlinear Analysis - Displacement Control
  • Loading Mode in Displacement Control Method
  • Single Degree of Freedom Control Limitation
  • Displacement Control Method: Displacement Restraints

Lesson 3: Nonlinear Static Buckling Analysis

  • Objectives
  • Case Study: Cylindrical Shell
  • Problem Statement
  • Stages in the Process
  • Linear Buckling
  • Linear Buckling: Assumptions and Limitations
  • Linear Static Study
  • Nonlinear Symmetrical Buckling Arc Length: Parameters
  • Nonlinear Asymmetrical Buckling
  • Bifurcation Point
  • Symmetrical vs. Asymmetrical Equilibrium
  • Discussion
  • Exercise 1: Nonlinear Analysis of a Shelf

Lesson 4: Plastic Deformation

  • Objectives
  • Plastic Deformation
  • Case Study: Paper Clip
  • Problem Statement
  • Stages in the Process
  • Linear Elastic
  • Stress Accuracy (Optional Mesh Sectioning
  • Nonlinear - Tresca’s Discussion
  • Nonlinear - von Mises
  • Mesh Sectioning
  • Exercise 2: Stress Analysis of a Beam Using Nonlinear Elastic Material
  • Exercise 3:Oil Well Pipe Connection Problem Description Materials Loading Conditions Goal
  • Summary

Lesson 5: Hardening Rules

  • Objective
  • Hardening Rules
  • Case Study: Crank Arm
  • Problem Statement
  • Stages in the Process
  • Isotropic Hardening
  • Discussion
  • Kinematic Hardening
  • Discussion
  • Summary

Lesson 6: Analysis of Elastomers

  • Objective
  • Case Study: Rubber Pipe
  • Problem Statement
  • Stages in the Process
  • Two Constant Mooney-Rivlin (1 Material Curve)
  • Two Constant Mooney-Rivlin (2 Material Curves)
  • Two Constant Mooney-Rivlin (3 Material Curves)
  • Six Constant Mooney-Rivlin (3 Material Curves)

Lesson 7: Nonlinear Contact Analysis

  • Objective
  • Case Study: Rubber Tube
  • Problem Statement
  • Instability in Assemblies
  • Stabilization
  • Releasing Prescribed Displacement
  • Validity and Limitations of Static Analysis
  • Exercise 4: Gear Assembly -> 1. Problem Description 2. Materials 3. Loading Conditions 4. Goal
  • Exercise 5: Ring -> 1. Problem Description 2. Materials 3. Loading Conditions 4. Goal

Lesson 8: Metal Forming

  • Objective
  • Bending
  • Case Study: Sheet Bending
  • Problem Statement
  • Stages in the Process
  • Plane Strain
  • Large Strain Formulation Option
  • Convergence Problems
  • Automatic Stepping Problems
  • Discussion
  • Exercise 6: Large strain contact simulation - Flanging -> 1. Problem Description 2. Materials 3. Loading Conditions 4. Goal
  • Formulations
  • Small Strain Vs. Large Strain
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