课程门户-章节详情

材料化学13级双语

刘志明教授

1 第一章绪论
- 1.1 Historical Perspective
- 1.2 Materials Science and Engineering
- 1.3 Why Study Materials Chemistry?
- 1.4 Materials and Its Components
- 1.5 Classification of Materials
- 1.6 Materials Science and Materials Chemistry
- 1.7 Research Field of Materials Chemistry
- 1.8 Development of materials
- 1.9 Composition, Structure and Performance of Materials
- 1.10 Performance of Materials
2 第二章固体相图化学
- 2.1 Phase Changes of Solids, Liquids and Gases
- 2.2 Differences between the Three States of Matter
- 2.3 The Close Packed Solid
- 2.4 Phase relations between individual solids
  - 2.4.1 Phase Diagram and Phase Chemistry
- 2.5 One-component system单元系相图
- 2.6 Binary system phase diagram 二元系相图—固溶体相图、合金相图
  - 2.6.1 Binary fully soluble phase diagram二元匀晶相图
  - 2.6.2 Eutectic Phase Diagram, Eutectoid Phase Diagram二元共晶、共析相图
  - 2.6.3 Peritectic Phase Diagram & Peritectoid Phase Diagram包晶和包析相图
  - 2.6.4 Stable Compound or Intermetallic Compound 形成稳定化合物或中间相的二元相图
  - 2.6.5 Basic Rules of Binary System 二元相图的一些基本规律
- 2.7 Ternary Phase Diagram 三元系相图
  - 2.7.1 三元相图的表示方法
  - 2.7.2 三元系平衡相的定量法则
  - 2.7.3 三元匀晶相图
  - 2.7.4 三元共晶相图
  - 2.7.5 Summary of ternary phase diagram
3 第三章固体结构测定
- 3.1 Scientific determination of the structure of solids
- 3.2 Bragg’s Equation
- 3.3 Miller Indices
- 3.4 Ewald and Reciprocal Lattice
- 3.5 Energy Band Models
- 3.6 Solid Structure Conventions and protocols
4 Chapter 4 Defects in Solids
- 4.1 Three kinds of Defects
  - 4.1.1 Types of point defects expected in a homogeneous
  - 4.1.2 The point defect in heterogeneous solids
  - 4.1.3 The line defect
  - 4.1.4 The Volume Defect
- 4.2 Mathematic and equations of the points
  - 4.2.1 The Plane Net
- 4.3 Non-stoichiometric solids
- 4.4 Defect equation symbolism
- 4.5 Some applications for defect chemistry
  - 4.5.1 Phosphors
  - 4.5.2 Defect equilibria and their energy
  - 4.5.3 Defect equilibria in various type of compounds
  - 4.5.4 Defect concentrations in MXs Compounds
5 Mechanisms and Reactions in the Solid State
- 5.1 Phase changes
- 5.2 The role of phase boundaries in solid state reactions
- 5.3 Reaction rate processes in solids
- 5.4 Defining heterogeneous nucleation process
- 5.5 Phase changes of solid state
- 5.6 Fick’s Laws of Diffusion—Kinetics Equation of Diffusion
  - 5.6.1 Fick’s First Law
  - 5.6.2 Fick’s Second Law
  - 5.6.3 Driving force of Diffusion
- 5.7 Diffusion Mechanism
  - 5.7.1 The Tarnishing Reaction
  - 5.7.2 Kirchendall Effect
  - 5.7.3 Types of diffusion reactions
- 5.8 硅酸盐固相反应
  - 5.8.1 固相反应机理
  - 5.8.2 固相反应动力学
  - 5.8.3 影响固相反应的因素
- 5.9 硅酸盐固相烧结
  - 5.9.1 烧结过程和机理
  - 5.9.2 烧结动力学
  - 5.9.3 影响固相烧结的因素
6 Particles and Particle Technology
- 6.1 Sequences in particle growth
- 6.2 粒子径与粒度分布
  - 6.2.1 粒子径的表示方法
  - 6.2.2 粒度分布
  - 6.2.3 平均粒子径
  - 6.2.4 新建课程目录
- 6.3 Particle size
- 6.4 Measuring particle distributions
- 6.5 Analysis of PD parameters
- 6.6 Types of log normal particle distributions
- 6.7 粒子形态
  - 6.7.1 形状指数
  - 6.7.2 形状系数
  - 6.7.3 粒子的比表面积
- 6.8 粉体的密度与孔隙率
  - 6.8.1 粉体的密度
  - 6.8.2 粉体孔隙率
- 6.9 Methods of measuring particle distributions
  - 6.9.1 Optical-The microscope-visual counting particles
7 Growth of Crystals
- 7.1 Methods of growth of crystals
- 7.2 Furnace construction
  - 7.2.1 Elements of furnace design
- 7.3 Steps in growing a single crystal
- 7.4 Czochralski growth of single crystals
  - 7.4.1 Czochralski crystal growth parameters
  - 7.4.2 Operation of the Czohralski apparatus
  - 7.4.3 Defects produced in the growing crystal as a function of growth conditions
- 7.5 The Bridge-Stockbarger Method for Crystal Growth
- 7.6 Zone melting as a means for forming single crystals
- 7.7 Zone refining
- 7.8 The Vernuil method of crystal growth
8 Plasma Chemistry
- 8.1 等离子化学
  - 8.1.1 等离子体
  - 8.1.2 Plasma空间的各种现象—碰撞、激发、电离、复合、附着、离脱扩散和迁移
  - 8.1.3 低温等离子体的发生与放电特性
  - 8.1.4 等离子体化学的特征
  - 8.1.5 等离子体化学的应用—气—固相反应
  - 8.1.6 等离子体检测
- 8.2 光化学

硅酸盐固相反应

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