Understand the relationship between processing and material properties with this streamlined introduction
Materials engineering focuses on the complex and crucial relationship between the physical properties of materials and the chemical bonds that comprise them. Specifically, this field of study seeks to understand how materials can be designed to meet specific design and performance criteria. This ‘materials paradigm’ has, in recent years, become integral to numerous cutting-edge areas of technological development.
Materials Engineering and Science seeks to introduce this vital and fast-growing subject to a new generation of scientists and engineers. It integrates core thermodynamic, kinetic, and transport principles into its analysis of the structural, mechanical, and physical properties of materials, creating a streamlined and intuitive approach that fosters understanding. Now fully revised to reflect the latest research and educational paradigms, this is an essential resource.
Readers of the second edition will also find: - Detailed discussion of all major classes of materials, including polymers, composites, and biologics- New and expanded treatment of nanomaterials, additive manufacturing (3D printing), and molecular simulation- Web-based and physical supplementary materials including an instructor guide, solutions manual, and sample lecture slides
Materials Engineering and Science is ideal for all advanced undergraduate and early graduate students in engineering, materials science, and related subjects.
Table of Contents
Preface ix
Acknowledgments xiii
About the Companion Website xv
1 The Structure of Materials 1
1.0 Introduction and Objectives 1
1.1 Structure of Metals and Alloys 25
1.2 Structure of Ceramics and Glasses 54
1.3 Structure of Polymers 66
1.4 Structure of Composites 90
1.5 Structure of Biologics 102
References 116
Problems 118
2 Thermodynamics of Condensed Phases 125
2.0 Introduction and Objectives 125
2.1 Thermodynamics of Metals and Alloys 129
2.2 Thermodynamics of Ceramics and Glasses 153
2.3 Thermodynamics of Polymers 173
2.4 Thermodynamics of Composites 178
2.5 Thermodynamics of Biologics 181
References 187
Problems 188
3 Kinetic Processes in Materials 193
3.0 Introduction and Objectives 193
3.1 Kinetic Processes in Metals and Alloys 196
3.2 Kinetic Processes in Ceramics and Glasses ∗ 210
3.3 Kinetic Processes in Polymers 223
3.4 Kinetic Processes in Composites ∗ 242
3.5 Kinetic Processes in Biologics ∗ 249
References 252
Problems 253
4 Transport Properties of Materials 257
4.0 Introduction and Objectives 257
4.1 Momentum Transport Properties of Materials ∗ 259
4.2 Heat Transport Properties of Materials 285
4.3 Mass Transport Properties of Materials ∗ 311
References 340
Problems 341
5 Mechanics of Materials 345
5.0 Introduction and Objectives 345
5.1 Mechanics of Metals and Alloys 346
5.2 Mechanics of Ceramics and Glasses 381
5.3 Mechanics of Polymers 404
5.4 Mechanics of Composites 424
5.5 Mechanics of Biologics 440
References 455
Problems 458
6 Electrical, Magnetic, and Optical Properties of Materials 463
6.0 Electrical Properties of Materials 464
6.1 Magnetic Properties of Materials 522
6.2 Optical Properties of Materials 554
References 579
Problems 581
7 Processing of Materials 585
7.0 Introduction and Objectives 585
7.1 Processing of Metals and Alloys 589
7.2 Processing of Ceramics and Glasses 603
7.3 Processing of Polymers 623
7.4 Processing of Composites 656
7.5 Processing of Biologics 663
References 668
Problems 669
Appendix 1: Structure of Some Common Polymers 671
Appendix 2: Composition of Common Alloys 675
Appendix 3: Surface and Interfacial Energies 685
Appendix 4: Thermal Conductivities of Selected Materials 689
Appendix 5: Diffusivities in Selected Systems 697
Appendix 6: Mechanical Properties of Selected Materials 699
Appendix 7: Electrical Conductivity of Selected Materials 707
Appendix 8: Refractive Index of Selected Materials 713
Index 717