结晶学(第4版)(英文版)
¥98.00定价
作者: [英]马林
出版时间:2015-05
出版社:世界图书出版公司
- 世界图书出版公司
- 9787510094927
- 94126
- 2015-05
- O7
内容简介
马林所著的《结晶学(第4版)(英文版)》是一部经典的结晶学教材,1961年初版, 1972年第2版,1992年第3版,1994年、1995年重印出版,1997年简装版出版,2001年第4版全面修订出版,备受关注。书中系统阐述了结晶学的基本原理,包括晶体学、晶体学的物性、结晶动力学、结晶技术以及结晶设备的设计原理和操作。新版在第3版的基础上进行了较全面的改写,同时增加了不少新的内容,反映了该领域近年来的主要进展。
目录
Preface to Fourth Edition
Preface to First Edition
Nomenclature and units
1 The crystalline state
1.1 Liquid crystals
1.2 Crystalline solids
1.3 Crystal symmetry
1.4 Crystal systems
1.5 Miller indices
1.6 Space lattices
1.7 Solid state bonding
1.8 Isomorphs and polymorphs
1.9 Enantiomorphs and chirality
1.10 Crystal habit
1.11 Dendrites
1.12 Composite crystals and twins
1.13 Imperfections in crystals
2 Physical and thermal properties
2.1 Density
2.2 Viscosity
2.3 Surface tension
2.4 Diffusivity
2.5 Refractive index
2.6 Electrolytic conductivity
2.7 Crystal hardness
2.8 Units of heat
2.9 Heat capacity
2.10 Thermal conductivity
2.11 Boiling. freezing and melting points
2.12 Enthalpies of phase change
2.13 Heats of solution and crystallization
2.14 Size classification of crystals
3 Solutions and solubility
3.1 Solutions and melts
3.2 Solvent selection
3.3 Expression of solution composition
3.4 Solubility correlations
3.5 Theoretical crystal yield
3.6 Ideal and non-ideal solutions
3.7 Particle size and solubility
3.8 Effect of impurities on solubility
3.9 Measurement of solubility
3.10 Prediction of solubility
3.11 Solubility data sources
3.12 Supersolubility
3.13 Solution structure
4 Phase equilibria
4.1 The phase rule
4.2 One-component systems
4.3 Two-component systems
4.4 Enthalpy-composition diagrams
4.5 Phase change detection
4.6 Three-component systems
4.7 Four-component systems
4.8 'Dynamic' phase diagrams
5 Nucleation
5.1 Primary nucleation
5.2 Secondary nucleation
5.3 Metastable zone widths
5.4 Effect of impurities
5.5 Induction and latent periods
5.6 Interfacial tension
5.7 Ostwald's rule of stages
6 Crystal growth
6.1 Crystal growth theories
6.2 Growth rate measurements
6.3 Crystal growth and dissolution
6.4 Crystal habit modification
6.5 Polymorphs and phase transformations
6.6 Inclusions
7 Recrystallization
7.1 Recrystallization schemes
7.2 Resolution of racemates
7.3 Isolation of polymorpbs
7.4 Recrystallization from supercritical fluids
7.5 Zone refining
7.6 Single crystals
8 Industrial techniques and equipment
8.1 Precipitation
8.2 Crystallization from melts
8.3 Sublimation
8.4 Crystallization from solution
9 Crystallizer design and operation
9.1 Crystal size distribution (CSD)
9.2 Kinetic data measurement and utilization
9.3 Crystallizer specification
9.4 Fluid-particle suspensions
9.5 Encrustation
9.6 Caking of crystals
9.7 Downstream processes
Appendix
References
Author index
Subject index
Preface to First Edition
Nomenclature and units
1 The crystalline state
1.1 Liquid crystals
1.2 Crystalline solids
1.3 Crystal symmetry
1.4 Crystal systems
1.5 Miller indices
1.6 Space lattices
1.7 Solid state bonding
1.8 Isomorphs and polymorphs
1.9 Enantiomorphs and chirality
1.10 Crystal habit
1.11 Dendrites
1.12 Composite crystals and twins
1.13 Imperfections in crystals
2 Physical and thermal properties
2.1 Density
2.2 Viscosity
2.3 Surface tension
2.4 Diffusivity
2.5 Refractive index
2.6 Electrolytic conductivity
2.7 Crystal hardness
2.8 Units of heat
2.9 Heat capacity
2.10 Thermal conductivity
2.11 Boiling. freezing and melting points
2.12 Enthalpies of phase change
2.13 Heats of solution and crystallization
2.14 Size classification of crystals
3 Solutions and solubility
3.1 Solutions and melts
3.2 Solvent selection
3.3 Expression of solution composition
3.4 Solubility correlations
3.5 Theoretical crystal yield
3.6 Ideal and non-ideal solutions
3.7 Particle size and solubility
3.8 Effect of impurities on solubility
3.9 Measurement of solubility
3.10 Prediction of solubility
3.11 Solubility data sources
3.12 Supersolubility
3.13 Solution structure
4 Phase equilibria
4.1 The phase rule
4.2 One-component systems
4.3 Two-component systems
4.4 Enthalpy-composition diagrams
4.5 Phase change detection
4.6 Three-component systems
4.7 Four-component systems
4.8 'Dynamic' phase diagrams
5 Nucleation
5.1 Primary nucleation
5.2 Secondary nucleation
5.3 Metastable zone widths
5.4 Effect of impurities
5.5 Induction and latent periods
5.6 Interfacial tension
5.7 Ostwald's rule of stages
6 Crystal growth
6.1 Crystal growth theories
6.2 Growth rate measurements
6.3 Crystal growth and dissolution
6.4 Crystal habit modification
6.5 Polymorphs and phase transformations
6.6 Inclusions
7 Recrystallization
7.1 Recrystallization schemes
7.2 Resolution of racemates
7.3 Isolation of polymorpbs
7.4 Recrystallization from supercritical fluids
7.5 Zone refining
7.6 Single crystals
8 Industrial techniques and equipment
8.1 Precipitation
8.2 Crystallization from melts
8.3 Sublimation
8.4 Crystallization from solution
9 Crystallizer design and operation
9.1 Crystal size distribution (CSD)
9.2 Kinetic data measurement and utilization
9.3 Crystallizer specification
9.4 Fluid-particle suspensions
9.5 Encrustation
9.6 Caking of crystals
9.7 Downstream processes
Appendix
References
Author index
Subject index
