SolidWorks Simulation 2015 Black Book
كتاب سوليد ووركس التحليلي
SolidWorks Simulation 2015 Black Book
Matt Weber
CAD/CAM/CAE Expert
Table of Contents
SolidWorks Simulation 2015
Black Book
Training and Consultant Services
Preface
About Author
Introduction to
Simulation
Chapter 1
Simulation
Types of Analyses performed in SolidWorks Simulation
Static Analysis
Dynamic Analysis
Thermal analysis
Steady State Thermal Analysis
Transient Thermal Analysis
Drop Test Studies
Fatigue Analysis
Pressure Vessel Design Study
Design Study
FEA
Starting SolidWorks Simulation
On clicking Study Advisor
On clicking New Study
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Basics of
Analyses
Chapter 2
Starting Analysis
Applying Material
Adding Custom Materials
Defining Fixtures
Fixtures Advisor
Fixed Geometry
Roller/Slider
Fixed Hinge
Elastic Support
Advanced Fixtures
External Load Advisor
External Load Advisor
Force
Torque
Pressure
Gravity
Centrifugal Force
Bearing Load
Remote Loads/Mass
Distributed Mass
Temperature
Flow Effects/Thermal Effects
Connections Advisor
Connections Advisor
Contact Sets
Component Contact
Contact Visualization Plot
Spring
Pin
Bolt
Spot Weld
Edge Weld
Link
Bearing
Rigid Connection
Meshing
Running Analysis
Results Advisor
Results Advisor
Model Only(No Results)
New Plot
List Stress, Displacement and Strain
Result Force
Static
Analysis
Chapter 3
Linear static analysis
Assumptions
Performing Static Analysis
Starting the Static Analysis
Applying Material
Applying Fixtures
Applying Loads
Meshing the model
Running the Analysis
Results
Optimizing product
Shell Manager
Performing Static Analysis Using Study Advisor
Starting the Static Analysis
Non-Linear
Static Analysis
Chapter 4
Non Linear Static Analysis
Starting Nonlinear Static Analysis
Applying Material
Applying Fixtures
Applying Time Varying Force
Running the analysis
Performing Nonlinear Static analysis on an assembly
Starting Non-Linear Static Analysis
Applying the Material
Applying Fixtures
Applying Forces
Applying Connections
Running the analysis
Performing Nonlinear Static analysis on a ring under application of Torque
Starting Non-Linear Static Analysis
Applying the Material
Applying Fixtures
Applying Forces
Running the analysis
Non-Linear
Dynamic Analysis
Chapter 5
Non Linear Dynamic Analysis
Starting Nonlinear Dynamic Analysis
Applying Material
Applying Fixtures
Applying Time Varying Force
Applying Connections
Global Damping
Running the analysis
Frequency Analysis
Chapter 6
Introduction
Starting Frequency Analysis
Applying Material
Applying Fixtures
Applying Forces
Setting Parameters for the analysis
Running the analysis
Linear
Dynamic Analysis
Chapter 7
Linear Dynamic Analysis
Modal Time History Analysis
Harmonic Analysis
Random Vibration Analysis
Response Spectrum Analysis
Starting Random Vibration Analysis
Applying Material
Applying Fixtures
Applying Force Vibrations
Applying Global Damping
Running the analysis
Modal Time History Analysis
Harmonic Analysis
Response Spectrum Analysis
Thermal Analysis
Chapter 8
Introduction
Important terms related to Thermal Analysis
Thermal Loads
Temperature
Convection
Heat Power
Heat Flux
Radiation
Contact Set
Practical on Steady State
Thermal Analysis
Starting the analysis
Applying Material
Applying temperature on the face
Applying heat generated by gas combustion on the head of the piston
Running the Analysis
Switching from steady state analysis to transient thermal analysis
Specifying Initial Temperature
Running the analysis
Using Probe to find out temperature
Buckling Analysis
Chapter 9
Introduction
Use of Buckling Analysis
Starting the Buckling Analysis
Applying Material
Applying Fixture
Applying the Force
Running the Analysis
Fatigue Analysis
Chapter 10
Introduction
Stages of Failure Due to Fatigue
Starting Fatigue Analysis
Initiating Fatigue Analysis
Applying or Editing S-N data
Modifying the Static Analysis earlier performed
Running the Fatigue Analysis
Changing Properties of Fatigue Analysis
Drop-Test
Chapter 11
Introduction
Starting Drop Test
Applying Material
Creating Mesh
Parameters for Drop
Running the Analysis
Pressure Vessel Design
and Design Study
Chapter 12
Introduction
Thermal Analysis 1
Static Analysis 1 & 2
Starting Pressure Vessel Design Study
Setup for Design Study
Running the Design Study
Design Study
Starting Design Study
Setting options for Design Study
Specifying parameters that are to be changed
Specifying restrictions for changes
Setting Goal for the study
Running the Study
Fundamentals of FEA
Chapter 13
Introduction
GENERAL DESCRIPTION OF THE METHOD
A BRIEF EXPLANATION OF FEA FOR A STRESS ANALYSIS PROBLEM
FINITE ELEMENT METHOD V/S CLASSICAL METHODS
FEM VS FINITE DIFFERENCE METHOD (FDM)
NEED FOR STUDYING FEM
Warning To Fea Package Users
Geometric Discontinuities
Discontinuity of Loads
Discontinuity of Boundary conditions
Material Discontinuity
REFINING MESH
Use Of Symmetry
HIGHER ORDER ELEMENTS V/S
REFINED MESH
Optimum process of FEA through
SolidWorks Simulation
Space for Student Notes
Project on Analysis
Chapter 14
Project
Starting Simulation
Performing the Static Analysis
Performing the Frequency Analysis
Performing Fatigue Study
Practice Questions
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