| Description |
1 online resource |
| Contents |
Front Cover; Thermomechanical Behavior of Dissipative Composite Materials; Copyright; Contents; Foreword 1; Foreword 2; Preface; Nomenclature; 1. Mathematical Concepts; 1.1. Tensors in Cartesian coordinates; 1.2. Tensors in curvilinear coordinates; 2. Continuum Mechanics and Constitutive Laws; 2.1. Kinematics; 2.2. Kinetics; 2.3. Divergence theorem and Reynolds transport theorem; 2.4. Conservation laws; 2.5. Constitutive law; 2.6. Parameter identification for an elastoplastic material; 3. Computational Methods; 3.1. Thermomechanical problem in weak form; 3.2. Computational procedure |
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3.3. General algorithm in thermoelasticity3.4. General algorithms in elastoplasticity; 3.5. Special algorithms in viscoelasticity; 3.6. Numerical applications; 4. Concepts for Heterogeneous Media; 4.1. Preliminaries; 4.2. Homogenization engineering approach; 4.3. Mathematical homogenization of periodic media; 5. Composites with Periodic Structure; 5.1. Thermomechanical processes; 5.2. Constitutive law; 5.3. Discussion; 5.4. Example: multilayered composite; 5.5. Numerical applications; 6. Composites with Random Structure; 6.1. Inclusion problems |
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6.2. Eshelby-based approaches: Linear thermoelastic composites6.3. Nonlinear thermomechanical processes; 6.4. Discussion; 6.5. Example: composite with spherical particles; 6.6. Numerical applications; Appendices; Appendix 1: Average Theorems in Large Deformations; A1.1. Preliminaries; A1.2. Hillâ#x80;#x99;s Lemma and the Hillâ#x80;#x93;Mandel theorem; A1.3. Useful identities; Appendix 2: Periodic Homogenization in Large Deformations; A2.1. Thermomechanical processes; Bibliography; Index; Back Cover |
| Summary |
Thermomechanical Behavior of Dissipative Composite Materials presents theoretical and numerical tools for studying materials and structures under fully coupled thermomechanical conditions, focusing primarily on composites. The authors cover many aspects of the modeling process and provide the reader with the knowledge required to identify the conservation laws and thermodynamic principles that must be respected by most solid materials. The book also covers construct constitutive laws for various types of dissipative processes, both rate-independent and rate-dependent, by utilizing a rigorous thermodynamic framework. Topics explored are useful for graduate students and advanced researchers who wish to strengthen their knowledge of the application of thermodynamic principles |
| Bibliography |
Includes bibliographical references and index |
| Notes |
Online resource; title from PDF title page (EBSCO, viewed January 24, 2018) |
| Subject |
Continuum mechanics.
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Composite materials.
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composite material.
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SCIENCE -- Mechanics -- General.
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SCIENCE -- Mechanics -- Solids.
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Composite materials
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Continuum mechanics
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| Form |
Electronic book
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| Author |
Charalambakis, Nicholas
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Chemisky, Yves
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Meraghni, Fodil
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| ISBN |
9780081025529 |
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0081025521 |
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