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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 thin-walled cylindrical vessel that's 3 meters in length has an internal diameter of 1 meter and a thickness of 30 mm. The cylindrical vessel is made of AISI Type 316L stainless steel and it will contain a fluid pressure of 2.1 MPa. Create a quarter model of the cylinder and use the SOLIDWORKS simulation to determine the hoop and axial stresses in the cylinder.
  2. An aircraft cabin window has been designed in the form of a thin circular plate with a radius of 600 mm and a thickness of 20 mm. The material of the window is polycarbonate with Young's modulus of 13.5 MPa and a Poisson's ratio of 0.36. Create a full model of the plate and analyze its maximum deflection and maximum principal stress using shell elements.
  3. Reconduct case study 2 for a disk that has the same diameter but with a thickness of 100 mm. Use SOLIDWORKS to determine the factor of safety for the new disk under the same operating speed of 20,000 rpm and the same material property...
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