
ISBN13: | 9781032948379 |
ISBN10: | 103294837X |
Binding: | Paperback |
No. of pages: | 392 pages |
Size: | 234x156 mm |
Language: | English |
Illustrations: | 92 Illustrations, black & white; 30 Halftones, black & white; 62 Line drawings, black & white; 20 Tables, black & white |
700 |
Analysis
Mathematics in engineering and natural sciences
Engineering in general
Electrical engineering and telecommunications, precision engineering
Mechanical Engineering Sciences
Civil and construction engineering
Energy industry
Traffic engineering sciences, automotive and transportation industry
Software development
Discrete mathematics
What Every Engineer Should Know About Computational Techniques of Finite Element Analysis
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This book is a concise, self-contained treatment of the finite element method and all the computational techniques needed for its efficient use and practical implementation. It describes many practical engineering analysis solution techniques applied in various industries.
This book is a concise, self-contained treatment of the finite element method and all the computational techniques needed for its efficient use and practical implementation. This book describes the process of transforming the physical problem into a mathematical model, the reduction of the mathematical model to a numerically solvable computational form, and many practical engineering analysis solution techniques applied in various industries.
The first edition of this book was published in 2004, two decades ago. Since then, finite element analysis (FEA) has become a fundamental component of product development software tools (CAD, CAE, CAM) used in many industrial fields of engineering, particularly in mechanical and aerospace engineering. It has also become a popular text in computational science in engineering (CSE) and applied mathematics courses in academia, one of the reasons for the new edition.
This new edition presents finite element solutions to advanced industrial applications in response to readers of the earlier editions. These are heat transfer, wave propagation, topology optimization, and fluid dynamics. These topics were requested both by engineering and applied mathematics students as well as practicing mechanical and aerospace engineers. It also contains the numerical solution of a structural example to aid the teaching of finite element analysis using this textbook.
I: Numerical Model Generation. 1. Finite Element Analysis. 2. Finite Element Model Generation. 3. Modeling of Physical Phenomena. 4. Constraints and Boundary Conditions. 5. Singularity Detection of Finite Element Models. 6. Coupling Physical Phenomena. II: Computational Reduction Techniques. 7. Matrix Factorization and Linear Systems. 8. Static Condensation. 9. Real Spectral Computations. 10. Complex Spectral Computations. 11. Dynamic Reduction. 12. Component Mode Synthesis. III: Engineering Solution Computations. 13. Modal Solution Technique. 14. Transient Response Analysis. 15. Frequency Domain Analysis. 16. Nonlinear Analysis. 17. Sensitivity and Optimization. 18. Engineering Result Computations. IV: Advanced Industrial Solutions. 19. Heat Transfer. 20. Wave Propagation. 21. Topology Optimization. 22. Fluid Dynamics.