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Introduction to Finite Element Analysis Using SOLIDWORKS Simulation 2023 [Pehme köide]

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  • Formaat: Paperback / softback, 518 pages, kõrgus x laius: 280x210 mm, kaal: 1040 g
  • Ilmumisaeg: 17-Apr-2023
  • Kirjastus: SDC Publications
  • ISBN-10: 1630575658
  • ISBN-13: 9781630575656
Teised raamatud teemal:
Introduction to Finite Element Analysis Using SOLIDWORKS Simulation 2023Suurem pilt
  • Formaat: Paperback / softback, 518 pages, kõrgus x laius: 280x210 mm, kaal: 1040 g
  • Ilmumisaeg: 17-Apr-2023
  • Kirjastus: SDC Publications
  • ISBN-10: 1630575658
  • ISBN-13: 9781630575656
Teised raamatud teemal:
Püsilink: https://www.kriso.ee/db/9781630575656.html
Märksõnad:
Preface i
Acknowledgments ii
Introduction
Introduction
2(1)
Development of Finite Element Analysis
2(1)
FEA Modeling Considerations
3(1)
Types of Finite Elements
4(2)
Finite Element Analysis Procedure
6(1)
Matrix Definitions
6(3)
Getting Started with SOLIDWORKS
9(1)
Starting SOLIDWORKS
9(3)
SOLIDWORKS Screen Layout
12(1)
Menu Bar
12(1)
Menu Bar Pull-down Menus
13(1)
Heads-up View Toolbar
13(1)
Features Toolbar
13(1)
Sketch Toolbar
13(1)
Feature Manager Design Tree
14(1)
Graphics Area
15(1)
Reference Triad
15(1)
Origin
15(1)
Confirmation Corner
15(1)
Graphics Cursor or Crosshairs
15(1)
Message and Status Bar
15(1)
Using the SOLIDWORKS Command Manager
16(1)
Mouse Buttons
17(1)
[ Esc] - Canceling Commands
17(1)
SOLID WORKS Help System
18(1)
Leaving SOLIDWORKS
18(1)
Create a CAD Files Folder
19
Chapter 1 The Direct Stiffness Method
Introduction
1(1)
One-dimensional Truss Element
1(1)
Example 1.1
1(1)
Example 1.2
1(1)
Basic Solid Modeling Using SOLIDWORKS
1(1)
The Adjuster Design
1(1)
Starting SOLIDWORKS
1(1)
Step 1 Create a Rough Sketch
1(1)
Graphics Cursors
1(1)
Geometric Relation Symbols
1(1)
Step 2 Apply/Modify Relations and Dimensions
1(1)
Viewing Functions - Zoom and Pan
1(1)
Delete an Existing Geometry of the Sketch
1(1)
Modify the Dimensions of the Sketch
1(1)
Step 3 Complete the Base Solid Feature
1(1)
Isometric View
1(1)
Rotation of the 3D Model - Rotate View
1(1)
Rotation and Panning - Arrow Keys
1(1)
Dynamic Viewing - Quick Keys
1(1)
3D Rotation
1(1)
Viewing Tools - Heads-up View Toolbar
1(1)
View Orientation
1(1)
Display Style
1(1)
Orthographic vs. Perspective
1(1)
Customize the Heads-up View Toolbar
1(1)
Step 4-1 Adding an Extruded Boss Feature
1(1)
Step 4-2 Adding an Extruded Cut Feature
1(1)
Step 4-3 Adding another Cut Feature
1(1)
Save the Model
1(1)
Questions
1(1)
Exercises
1(1)
Chapter 2 Truss Elements in Two-Dimensional Spaces
Introduction
2(1)
Truss Elements in Two-Dimensional Spaces
2(1)
Coordinate Transformation
2(1)
Example 2.1
2(1)
Solution
2(1)
Global Stiffness Matrix
2(1)
Example 2.2
2(1)
Solution
2(1)
Questions
2(1)
Exercises
2(1)
Chapter 3 2D Trusses in MS Excel and Truss Solver Direct Stiffness Matrix Method using Excel
3(1)
Example 3.1
3(1)
Establish the Global K Matrix for each Member
3(1)
Assembly of the Overall Global Stiffness Matrix
3(1)
Solving the Global Displacements
3(1)
Calculating Reaction Forces
3(1)
Determining the Stresses in Elements
3(1)
The Truss Solver and the Truss View Programs
3(1)
The Truss View Program
3(1)
Questions
3(1)
Exercises
3(1)
Chapter 4 Truss Elements in SOLIDWORKS Simulation
One-dimensional Line Elements
4(1)
Starting SOLIDWORKS
4(1)
Units Setup
4(1)
Creating the CAD Model - Solid Modeling Approach
4(1)
A CAD Model is NOT an FEA Model
4(1)
The SOLIDWORKS Simulation Module
4(1)
Creating an FEA Model
4(1)
Assign the Element Material Property
4(1)
Apply Boundary Conditions - Constraints
4(1)
Apply External Loads
4(1)
Create the FEA Mesh and Run the Solver
4(1)
Viewing the Stress Results
4(1)
Viewing the Displacement Results
4(1)
Questions
4(1)
Exercises
4(1)
Chapter 5 SOLIDWORKS Simulation Two-Dimensional Truss Analysis
Finite Element Analysis Procedure
5(1)
Preliminary Analysis
5(1)
Starting SOLIDWORKS
5(1)
Units Setup
5(1)
Creating the CAD Model - Structural Member Approach
5(1)
Creating Structural Members in SOLIDWORKS
5(1)
Weldment Profiles
5(1)
Activate the SOLIDWORKS Simulation Module
5(1)
Setting Up Truss Elements
5(1)
Assign the Element Material Property
5(1)
Applying Boundary Conditions - Constraints
5(1)
Applying External Loads
5(1)
Create the FEA Mesh and Run the Solver
5(1)
Viewing the Stress results
5(1)
Viewing the Internal Loads of All members
5(1)
Viewing the Reaction Forces at the supports
5(1)
Questions
5(1)
Exercises
5(1)
Chapter 6 Three-Dimensional Truss Analysis
Three-Dimensional Coordinate Transformation Matrix
6(1)
Stiffness Matrix
6(1)
Degrees of Freedom
6(1)
Problem Statement
6(1)
Preliminary Analysis
6(1)
Start SOLIDWORKS
6(1)
Units Setup
6(1)
Create the CAD Model - Structural Member Approach
6(1)
Create a New Weldment Profile in SOLIDWORKS
6(1)
Create Structural Members using the New Profile
6(1)
Editing the Dimensions of the New Profile
6(1)
Activate the SOLIDWORKS Simulation Module
6(1)
Setting Up the Truss Elements
6(1)
Assign the Element Material Property
6(1)
Applying Boundary Conditions - Constraints
6(1)
Applying the External Load
6(1)
Create the FEA Mesh and Run the Solver
6(1)
Using the Probe Option to View Individual Stress
6(1)
Viewing the Internal Loads of All Members
6(1)
Questions
6(1)
Exercises
6(1)
Chapter 7 Basic Beam Analysis
Introduction
7(1)
Modeling Considerations
7(1)
Problem Statement
7(1)
Preliminary Analysis
7(1)
Start SOLIDWORKS
7(1)
Units Setup
7(1)
Create the CAD Model - Structural Member Approach
7(1)
Create a Rectangular Weldment Profile
7(1)
Create Structural Members Using the New Profile
7(1)
Adjust the Orientation of the Profile
7(1)
Add a Datum Point for the Concentrated Load
7(1)
Activate the SOLIDWORKS Simulation Module
7(1)
Assign the Element Material Property
7(1)
Apply Boundary Conditions - Constraints
7(1)
Apply the Concentrated Point Load
7(1)
Apply the Distributed Load
7(1)
Create the FEA Mesh and Run the Solver
7(1)
What Went Wrong?
7(1)
Directions 1 and 2 in Shear and Moment Diagrams
7(1)
Questions
7(1)
Exercises
7(1)
Chapter 8 Beam Analysis Tools
Introduction
8(1)
Problem Statement
8(1)
Preliminary Analysis
8(1)
Stress Components
8(1)
Start SOLIDWORKS
8(1)
Create the CAD Model - Structural Member Approach
8(1)
Create a Rectangular Weldment Profile
8(1)
Create Structural Members Using the New Profile
8(1)
Adjust the Orientation of the Profile
8(1)
Add a Datum Point for the 1.5m Location
8(1)
Activate the SOLIDWORKS Simulation Module
8(1)
Assign the Element Material Property
8(1)
Apply Boundary Conditions - Constraints
8(1)
Apply the Distributed Load
8(1)
Create the FEA Mesh and Run the Solver
8(1)
Shear and Moment Diagrams
8(1)
Using the Probe Option to Examine Stress at Point 1
8(1)
Questions
8(1)
Exercises
8(1)
Chapter 9 Statically Indeterminate Structures
Introduction
9(1)
Problem Statement
9(1)
Preliminary Analysis
9(1)
Start SOLIDWORKS
9(1)
Create the CAD Model
9(1)
Create a Circular Weldment Profile
9(1)
Create Structural Members using the New Profile
9(1)
Add a Datum Point for the Concentrated Load
9(1)
Activate the SOLIDWORKS Simulation Module
9(1)
Assign the Element Material Property
9(1)
Apply Boundary Conditions - Constraints
9(1)
Apply the Concentrated Point Load
9(1)
Create the FEA Mesh and Run the Solver
9(1)
Viewing the Internal Loads of All members
9(1)
Shear and Moment Diagrams
9(1)
Questions
9(1)
Exercises
9(1)
Chapter 10 Two-Dimensional Surface Analysis
Introduction
10(1)
Problem Statement
10(1)
Preliminary Analysis
10(1)
Maximum Normal Stress
10(1)
Maximum Displacement
10(1)
Geometric Considerations of Finite Elements
10(1)
Start SOLIDWORKS
10(1)
Create the CAD Model
10(1)
Activate the SOLIDWORKS Simulation Module
10(1)
Assign the Element Material Property
10(1)
Apply Boundary Conditions - Constraints
10(1)
Apply the External Load
10(1)
H-Element versus P-Element
10(1)
Create the first FEA Mesh - Coarse Mesh
10(1)
Run the Solver
10(1)
Refinement of the FEA Mesh- Global Element Size 0.10
10(1)
Refinement of the FEA Mesh- Global Element Size 0.05
10(1)
Refinement of the FEA Mesh- Global Element Size 0.03
10(1)
Refinement of the FEA Mesh- Global Element Size 0.02
10(1)
Comparison of Results
10(1)
Questions
10(1)
Exercises
10(1)
Chapter 11 Three-Dimensional Solid Elements
Introduction
11(1)
Problem Statement
11(1)
Preliminary Analysis
11(1)
Start SOLIDWORKS
11(1)
Create a CAD Model in SOLIDWORKS
11(1)
Define the Sweep Path
11(1)
Define the Sweep Section
11(1)
Create the Swept Feature
11(1)
Create a Cut Feature
11(1)
Activate the SOLIDWORKS Simulation Module
11(1)
Assign the Element Material Property
11(1)
Apply Boundary Conditions - Constraints
11(1)
Apply the External Load to the system
11(1)
Create the first FEA Mesh - Coarse Mesh
11(1)
Run the Solver
11(1)
Refinement of the FEA Mesh - Global Element Size 0.10
11(1)
Refinement of the FEA Mesh - Mesh Control Option
11(1)
Refinement of the FEA Mesh - Automatic Transition
11(1)
Comparison of Results
11(1)
Questions
11(1)
Exercises
11(1)
Chapter 12 2D Axisymmetric and 3D Thin Shell Analyses
Introduction
12(1)
Problem Statement
12(1)
Preliminary Analysis
12(1)
Start SOLIDWORKS
12(1)
Create a 3 D Solid Model in SOLIDWORKS
12(1)
Activate the SOLIDWORKS Simulation Module
12(1)
Assign the Element Material Property
12(1)
Apply Boundary Conditions - Constraints
12(1)
Apply the Pressure to the System
12(1)
Create the first FEA Mesh - Coarse Mesh
12(1)
Run the Solver and View the Results
12(1)
Refinement of the FEA Mesh - Global Element Size 5.0
12(1)
Start a New 3D Surface Model
12(1)
Start a New FEA Study
12(1)
Completing the Definition of the Surface Model
12(1)
Assign the Element Material Property
12(1)
Apply Boundary Conditions - Constraints
12(1)
Apply the Pressure to the System
12(1)
Create the first FEA Mesh - Coarse Mesh
12(1)
Run the Solver and View the Results
12(1)
Refinement of the FEA Mesh- Global Element Size 10.0
12(1)
Create a 3D Solid Model in SOLIDWORKS
12(1)
Activate the SOLIDWORKS Simulation Module
12(1)
Assign the Element Material Property
12(1)
Apply Boundary Conditions - Constraints
12(1)
Apply the Pressure to the System
12(1)
Create the first FEA Mesh - Coarse Mesh
12(1)
Run the Solver and View the Results
12(1)
Refinement of the FEA Mesh - Global Element Size 12.5
12(1)
Notes on FEA Linear Static Analyses
12(1)
Questions
12(1)
Exercises
12(1)
Chapter 13 FEA Static Contact Analysis
Introduction
13(1)
Problem Statement
13(1)
Parts
13(1)
1 Pliers-Jaw
13(1)
2 Pin
13(1)
3 Fork
13(1)
Start SOLIDWORKS
13(1)
Document Properties
13(1)
Insert the First Component
13(1)
Insert the Second Component
13(1)
Assembly Mates
13(1)
Insert the Third Component
13(1)
Insert the Upper Jaw Component
13(1)
Identifying Coincident Surfaces in the Model
13(1)
Activate the SOLIDWORKS Simulation Module
13(1)
Assign the Element Material Property
13(1)
Apply Boundary Conditions - Constraints
13(1)
Apply the External Load on the Handles
13(1)
Global Contact Settings
13(1)
Set up Specific Local Surfaces Interaction
13(1)
Set up another Surface Interaction set on the PIN part
13(1)
SOLIDWORKS Curvature-Based Mesh
13(1)
Create the FEA Mesh
13(1)
Run the Solver and View the Results
13(1)
Use the Animate Option
13(1)
Refinement of the FEA Mesh - Apply Mesh Control
13(1)
Use the Section Clipping Option
13(1)
Use the Iso Clipping Option
13(1)
Set up a Contact Pressure Plot
13(1)
Questions
13(1)
Exercises
13(1)
Chapter 14 Dynamic Modal Analysis
Introduction
14(1)
Problem Statement
14(1)
Preliminary Analysis
14(1)
The Cantilever Beam Modal Analysis Program
14(1)
Start SOLIDWORKS
14(1)
Create the CAD Model
14(1)
Activate the SOLIDWORKS Simulation Module
14(1)
Assign the Element Material Property
14(1)
Apply Boundary Conditions - Constraints
14(1)
Create the first FEA Mesh
14(1)
Viewing the Results
14(1)
Refinement of the FEA Mesh - Global Element Size 0.15
14(1)
Add an Additional Mass to the System
14(1)
One-Dimensional Beam Frequency Analysis
14(1)
Conclusions
14(1)
Questions
14(1)
Exercises
14
Appendix
Index