E-Book, Englisch, 274 Seiten, Web PDF
Taya / Arsenault Metal Matrix Composites
1. Auflage 2016
ISBN: 978-1-4831-9113-3
Verlag: Elsevier Science & Techn.
Format: PDF
Kopierschutz: 1 - PDF Watermark
Thermomechanical Behavior
E-Book, Englisch, 274 Seiten, Web PDF
ISBN: 978-1-4831-9113-3
Verlag: Elsevier Science & Techn.
Format: PDF
Kopierschutz: 1 - PDF Watermark
Metal Matrix Composites: Thermomechanical Behavior discusses metal matrix composites, elaborating on that consists of two phases-fiber as reinforcement and metal as matrix. This book focuses on polymer matrix composites, including topics in metal matrix composites ranging from processing to fracture mechanics. The three basic types of composite materials-dispersion-strengthened, particle-reinforced, and fiber (whisker)-reinforced, are also described in detail. Dispersion-strengthened is characterized by a microstructure consisting of an elemental matrix within which fine particles are uniformly dispersed, while particle-reinforced is indicated by dispersed particles of greater than 1.0 µm diameter with a volume fraction of 5 to 40%. Fiber (whisker)-reinforced provides a distinguishing microstructural feature of fiber-reinforced materials, such as that the reinforcing fiber has one long dimension, while the reinforcing particles of the other two types do not. This publication serves as a reference data book to students and researchers aiming to acquire knowledge of the thermomechanical behavior of metal matrix composites.
Autoren/Hrsg.
Weitere Infos & Material
1;Front Cover;1
2;Metal Matrix Composites: Thermomechanical Behavior;4
3;Copyright Page;5
4;Table of Contents;6
5;PREFACE;8
6;CREDITS TO PUBLISHERS AND AUTHORS;10
7;Chapter 1. Introduction;12
7.1;1.1 Definition of Metal Matrix Composite;12
7.2;1.2 Matrix Metas and Reinforcements;16
7.3;1.3 Engineering Applications and their Requirements;16
7.4;1.4 Problems;19
7.5;References;19
8;Chapter 2. Foundation of Analysis;20
8.1;2.1 Introduction;20
8.2;2.2 Thermomechanical Behavior of Isotropic Materials;21
8.3;2.3 Constitutive Equations of Anisotropie Materials;28
8.4;2.4 Composite Models;34
8.5;2.5 Problems;50
8.6;References;50
9;Chapter 3. Basic Mechanical Behavior;52
9.1;3.1 Introduction;52
9.2;3.2 Stiffness;53
9.3;3.3 Yield and Flow Stresses;59
9.4;3.4 Fracture and Toughness;74
9.5;3.5 Thermal Stress;112
9.6;3.6 Problems;120
9.7;References;120
10;Chapter 4. Mechanical Behavior in Use Environments;124
10.1;4.1 Introduction;124
10.2;4.2 Mechanical Behavior in Thermal Environments;124
10.3;4.3 Mechanical Behavior under Dynamic Loadings;160
10.4;4.4 Mechanical Behavior in other Severe Environments;173
10.5;4.5 Problems;184
10.6;References;185
11;Chapter 5. Thermal Behavior;188
11.1;5.1 Introduction;188
11.2;5.2 Coefficient of Thermal Expansion;188
11.3;5.3 Thermal Conductivity;203
11.4;5.4 Specific Heat;217
11.5;5.5 Problems;218
11.6;References;219
12;Chapter 6. Engineering Problems;220
12.1;6.1 Introduction;220
12.2;6.2 Fabrication;220
12.3;6.3 Machining;233
12.4;6.4 Problems;247
12.5;References;247
13;Appendices;249
13.1;A. Metal Matrix Composite Systems ;249
13.2;B. Thermomechanical Properties of Materials;255
13.3;C. Eshelby's Tensor for Elasticity;261
13.4;D. Eshelby's Tensors for Heat Conduction;266
14;AUTHOR INDEX;267
15;SUBJECT INDEX;271
