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Practical Finite Element Simulations with SOLIDWORKS 2022

You're reading from   Practical Finite Element Simulations with SOLIDWORKS 2022 An illustrated guide to performing static analysis with SOLIDWORKS Simulation

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Product type Paperback
Published in Feb 2022
Publisher Packt
ISBN-13 9781801819923
Length 480 pages
Edition 1st Edition
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Author (1):
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Khameel B. Mustapha Khameel B. Mustapha
Author Profile Icon Khameel B. Mustapha
Khameel B. Mustapha
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Table of Contents (15) Chapters Close

Preface 1. Section 1: An Introduction to SOLIDWORKS Simulation
2. Chapter 1: Getting Started with Finite Element Simulation FREE CHAPTER 3. Chapter 2: Analyses of Bars and Trusses 4. Chapter 3: Analyses of Beams and Frames 5. Chapter 4: Analyses of Torsionally Loaded Components 6. Section 2: SOLIDWORKS Simulation with Shell and Solid Elements
7. Chapter 5: Analyses of Axisymmetric Bodies 8. Chapter 6: Analysis of Components with Solid Elements 9. Chapter 7: Analyses of Components with Mixed Elements 10. Section 3: Advanced SOLIDWORKS Simulation with Complex Material and Loading Behavior
11. Chapter 8: Simulation of Components with Composite Materials 12. Chapter 9: Simulation of Components under Thermo-Mechanical and Cyclic Loads 13. Chapter 10: A Guide to Meshing in SOLIDWORKS 14. Other Books You May Enjoy

Exercises

  1. A variable pitch spring is to be made from a music (ASTM A228) wire with a diameter of 20 mm and other data as shown here:

    Total number of active coils = 10

    Number of inactive coils = 4

    Free length = 500 mm

    Outside diameter = 120 mm

    The spring is ground at the ends. Compute the deflection experienced by the spring when a force of 300 N is applied at its top.

  2. Repeat case study 2 for cases where: (a) the friction coefficient is set to 0.02 by evaluating the effect of the change of the coefficient of friction on the stress values; and (b) the default bonded interaction is retained with no manual definition of the "contact" interaction. How does this affect the stress distribution?
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