The finite element method for engineers

著者

書誌事項

The finite element method for engineers

Kenneth H. Huebner ... [et al.]

Wiley, c2001

4th ed

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注記

Other authors: Donald L. Dewhirst, Douglas E. Smith, Ted G. Byrom

"A Wiley-Interscience publication."

Includes bibliographical references and index

内容説明・目次

内容説明

A useful balance of theory, applications, and real-world examples The Finite Element Method for Engineers, Fourth Edition presents a clear, easy-to-understand explanation of finite element fundamentals and enables readers to use the method in research and in solving practical, real-life problems. It develops the basic finite element method mathematical formulation, beginning with physical considerations, proceeding to the well-established variation approach, and placing a strong emphasis on the versatile method of weighted residuals, which has shown itself to be important in nonstructural applications. The authors demonstrate the tremendous power of the finite element method to solve problems that classical methods cannot handle, including elasticity problems, general field problems, heat transfer problems, and fluid mechanics problems. They supply practical information on boundary conditions and mesh generation, and they offer a fresh perspective on finite element analysis with an overview of the current state of finite element optimal design. Supplemented with numerous real-world problems and examples taken directly from the authors' experience in industry and research, The Finite Element Method for Engineers, Fourth Edition gives readers the real insight needed to apply the method to challenging problems and to reason out solutions that cannot be found in any textbook.

目次

PART I. 1. Meet the Finite Element Method. 2. The Direct Approach: A Physical Interpretation. 3. The Mathematical Approach: A Variational Interpretation. 4. The Mathematical Approach: A Generalized Interpretation. 5. Elements and Interpolation Functions. PART II. 6. Elasticity Problems. 7. General Field Problems. 8. Heat Transfer Problems. 9. Fluid Mechanics Problems. 10. Boundary Conditions, Mesh Generation, and Other Practical Considerations 11. Finite Elements in Design.

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