1 MATERIALS SCIENCE AND ENGINEERING
1.1 Introduction
1.2 The Role of Materiasl in Technologically Advanced Societies
1.3 The Engineering Profession and Materials]
1.4 Major Classes of Materials
1.5 Materials Propertiesa and Materials Engineering
1.6 The Integrated Approach to Materials Engineering
1.7 Engineering Professionalism and Ethics
Summary
PART 1FUNDAMENTALS
2 ATOMIC SCALE STRUCTURES
2.1 Introduction
2.2 Atomic Structure
2.3 Thermodynamics and Kinetics
2.4 Primary Bonds
2.5 The Bond-Energy Curve
2.6 Atomic Packing and Coordination Numbers
2.7 Secondqry Bonds
2.8 Mixed Bonding
2.9 The Structure of Polymer Molecules
Summary
Key Terms
Homework Problems
3 CRYSTAL STRUCTURES
3.1 Introduction
3.2 Bravais Lattices and Unit Cells
3.3 Crystals with One Atom per Lattice Site and Hexagonal Crystals
3.4 Miller Indices
3.5 Densities and Packing Factors of Crystalline Structures
3.6 Interstitial Positions and Sixes
3.7 Crystals with Multiple Atoms per Lattice Site
3.8 Liquid Crystals
3.9 Single Crystals and Polcrystalline Materials
3.10 Allotropy and Polycrystalline
3.11 Anisotropy
3.12 X-ray Diffraction
Summary
Key Terms
Homework Problems
4 Point Defects and Defcts
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5 Linear,Planar,and Volume Defects
6 Noncrystalline and Semicrystaline Materials
PART MICROSTRUCTURRAL DEVELOPMENT
7 Phase Equilibria and Phase Diagrams
8 Kinetics and Microstructure of Strucural Transformations
PART PROPERTIES
9 Mechanical Properties
10 Electrical Properties
11 Optrcal and Dielectric Properties
12 Magnetic Properties
13 Thermal Properties
14 Composite Materials
15 Materials-Environment Interactions
PART MATERIALS SYNTHESIS AND DESIGN
16 Materials Purocessing
17 Materials and Engineering Design
APPENDICES
A Periodic Table of the Elements
B Physical and Chemical Data for the Elements
C Atomic and lonic Radii of the Elements
D Mechanical Properties
E Answers to Selected Problems
Glossary
References
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