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FINITE ELEMENT METHODS: Basic Concepts and Applications

FINITE ELEMENT METHODS: Basic Concepts and Applications

by CHENNAKESAVA R. ALAVALA
FINITE ELEMENT METHODS: Basic Concepts and Applications

FINITE ELEMENT METHODS: Basic Concepts and Applications

by CHENNAKESAVA R. ALAVALA

Overview

The book gives a clear picture of structural, torsion, free-vibration, heat transfer and fluid flow problems. It also provides detailed description of equations of equilibrium, stress-strain relations, interpolation functions and element design, symmetry and applications of FEM. The text is a synthesis of both the physical and the mathematical characteristics of finite element methods. A question bank at the end of each chapter comprises descriptive and objective type questions to drill the students in self-study.

Product Details

ISBN-13: 9788120335844
Publisher: PHI Learning
Publication date: 11/10/2008
Sold by: Barnes & Noble
Format: eBook
File size: 17 MB
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About the Author

CHENNAKESAVA R. ALAVALA, M.E. (Mech.); M.Tech (CAD/CAM); Ph.D. (Mech.); Ph.D. (CAD/CAM), is Professor in the Department of Mechanical Engineering, Jawaharlal Nehru Technological University (JNTU), Hyderabad. With 16 years of teaching experience he has published more than a hundred technical papers in reputed national and international journals. Professor Alavala is also the author of four books, including CAD/CAM: Concepts and Applications, and Finite Element Methods: Basic Concepts and Applications (both published by PHI Learning). His areas of research interest include fuzzy logic, neural networks, genetic algorithms, finite element methods, CAD/CAM, and robotics.

Table of Contents

Preface • Acknowledgements 1. INTRODUCTION 2. FINITE ELEMENT MODELLING 3. ONE DIMENSIONAL BAR ELEMENTS 4. PLANE TRUSS ELEMENTS 5. PLANE BEAM ELEMENTS 6. PLANE FRAME ELEMENTS 7. PLANE STRESS AND PLANE STRAIN PROBLEMS 8. LINEAR TRIANGULAR ELEMENTS 9. ISOPARAMETRIZATION TWO DIMENSIONAL ELEMENTS 10. NUMERICAL INTEGRATION 11. AXISYMMETRIC ELEMENTS 12. THREE DIMENSIONAL STRESS ANALYSIS 13. FREE VIBRATION ANALYSIS 14. REVIEW QUESTIONS 15. TORSION ANALYSIS 16. HEAT TRANSFER ANALYSIS 17. FLUID FLOW ANALYSIS 18. ERROR ANALYSIS 19. SOLUTION OF FE EQUATIONS 20. POSTPROCESSING Appendix: Matrix Algebra Bibliography • Index
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Related Subjects

Science & Technology
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Science & Technology
Engineering
Mechanical Engineering & Dynamics
Mechanical Engineering - General & Miscellaneous

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