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Hybrid and Incompatible Finite Element Methods
While the theory and application of finite elements methods can be extended to incompatible, hybrid, and mixed element methods, important issues, such as determining the reliability of the solution of incompatible multivariable elements, along with a common perception of impracticality, have hindered the widespread implementation of these methods.
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Hybrid and Incompatible Finite Element Methods
While the theory and application of finite elements methods can be extended to incompatible, hybrid, and mixed element methods, important issues, such as determining the reliability of the solution of incompatible multivariable elements, along with a common perception of impracticality, have hindered the widespread implementation of these methods.
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Hybrid and Incompatible Finite Element Methods

Hybrid and Incompatible Finite Element Methods

by Theodore H.H. Pian, Chang-Chun Wu
Hybrid and Incompatible Finite Element Methods
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Hybrid and Incompatible Finite Element Methods

Hybrid and Incompatible Finite Element Methods

by Theodore H.H. Pian, Chang-Chun Wu

Overview

While the theory and application of finite elements methods can be extended to incompatible, hybrid, and mixed element methods, important issues, such as determining the reliability of the solution of incompatible multivariable elements, along with a common perception of impracticality, have hindered the widespread implementation of these methods.

Product Details

ISBN-13: 9781135442200
Publisher: CRC Press
Publication date: 11/04/2005
Series: Modern Mechanics and Mathematics
Sold by: Barnes & Noble
Format: eBook
Pages: 400
File size: 14 MB
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About the Author

Pian\, Theodore H.H.; Wu\, Chang-Chun

Table of Contents

Variational Formulation of Finite Element Methods in Solid Mechanics. Foundation of Incompatible Analysis. Elements for the Theory of Elasticity. Foundation in Mechanics of Hybrid Stress Elements. Optimization of Hybrid-Stress Finite Elements. Numerical Stability: Zero Energy Mode Analysis. Plastic Analysis of Structures. Computational Fracture. Computational Materials. Finite Element Implementation.
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