Materials Science / [Set Fundamentals of Material Science, Vol 1+2] von Gengxiang Hu | ISBN 9783110715361

Materials Science / [Set Fundamentals of Material Science, Vol 1+2]

von Gengxiang Hu, Xun Cai und Yonghua Rong
Mitwirkende
Autor / AutorinGengxiang Hu
Autor / AutorinXun Cai
Autor / AutorinYonghua Rong
Beiträge vonShanghai Jiao Tong University Press
Buchcover Materials Science / [Set Fundamentals of Material Science, Vol 1+2] | Gengxiang Hu | EAN 9783110715361 | ISBN 3-11-071536-8 | ISBN 978-3-11-071536-1

Table of Content:
Chapter 1 Atomic structure and interatomic bonding
1.1 Atomic structure
1.2 Interatomic bonding
1.3 Polymer chain structure
Chapter 2 Solids and structure
2.1 Fundamentals of crystallography
2.2 Metallic crystal structures
2.3 Structures of alloy phases
2.4 Ionic crystal structures
2.5 Covalent crystal structures
2.6 Polymer crystals
2.7 Structure of the qusi-crystalline state
2.8 Structure of the liquid-crystalline state
2.9 Structure of the noncrystalline state
Chapter 3 Imperfections in crystalline solids
3.1 Point defects
3.3 Dislocations-linear defects
3.3 Surface and interface
Chapter 4 Motion of atoms and molecules in solids
4.1 Phenomenological theory
4.2 Thermodynamic analysis of diffusion
4.3 Atomic theory of diffusion
4.4 Activation energy of diffusion
4.5 Radom walk and diffusion displacement
4.6 Factors influencing diffusion
4.7 Reactive diffusion
4.8 Diffusion in ionic crystals
4.9 Molecule motion in polymer

Materials Science / [Set Fundamentals of Material Science, Vol 1+2]

von Gengxiang Hu, Xun Cai und Yonghua Rong
Mitwirkende
Autor / AutorinGengxiang Hu
Autor / AutorinXun Cai
Autor / AutorinYonghua Rong
Beiträge vonShanghai Jiao Tong University Press

This textbook summarizes physical aspects of materials at atomic and molecular level, and discusses micro-structure of metals, alloys, ceramics and polymers. It further explains point defects, dislocations and surface imperfections, and the motions of atoms and molecular in solid state. As first volume in the set, it prepares students for further studies on phases and transitions which are discussed in the next volume.