1. 1 oxide ceramic materials
1. 1. 1 alumina ceramic material
1. 1.2 zirconia ceramic material
1. 1.3 magnesia ceramic material
1. 1.4 beryllium oxide ceramic material
1.2 nitride ceramic material
1.2. 1 silicon nitride ceramics
1.2.2 aluminum nitride ceramics
1.2.3 boron nitride ceramics
1.3 carbide ceramic material
1.3. 1 silicon carbide ceramics
1.3.2 boron carbide ceramics
1.3.3 titanium carbide ceramics
refer to
Chapter II Properties of Structural Ceramics
2. 1 Mechanical properties of structural ceramics
2. 1. 1 Strength of ceramic materials
2. 1.2 Fracture toughness of ceramic materials
2. 1.3 elastic modulus of ceramic materials
2. 1.4 Hardness of ceramic materials
2.2 Thermal properties of structural ceramic materials
2.2. 1 specific heat capacity of ceramic materials
Thermal conductivity of ceramic materials
Thermal expansion of ceramic materials
2.2.4 Thermal shock resistance of ceramic materials
refer to
Chapter III Strengthening and Toughening of Structural Ceramics
3. 1 particle dispersion toughening
3. Dispersion toughening and strengthening mechanism of1.1particles
3. 1.2 ceramic particle dispersion strengthening and toughening composites
3. 1.3 Metal Particle Dispersion Toughening Composites
3. 1.4 intermetallic compound ceramic composites
3. 1.5 Nanoparticles Toughened Ceramic Composites
3.2 Transformation Toughening 8
3.2. 1 t→m phase transition size effect 8
Transformation toughening mechanism
3.3 Toughening of Fibers and Whiskers
3.3. 1 Toughening and Strengthening Mechanism of Fiber
3.3.2 Long fiber toughened reinforced composites
3.3.3 Short fiber toughened ceramic matrix composites
3.3.4 Whisker Toughened Reinforced Composites
3.4 Microstructure Strengthening and Toughening
3.4. 1 self-toughening ceramic materials
3.4.2 Bionic Structure Design
3.5 Layered Composite Ceramics and Its Strengthening and Toughening Mechanism
3.5. Strong Interface Bonding Mechanism of1Ceramic Materials
3.5.2 Strengthening and Toughening Mechanism of Weak Interface Bonding Ceramic Materials
3.6 Strengthening and Toughening of Solid Solution
3.6. 1 interstitial solid solution and its toughening and strengthening mechanism
3.6.2 displacement solid solution and its toughening and strengthening mechanism
refer to
Chapter IV Application of Structural Ceramic Materials
4. 1 ceramic tools
4. 1. 1 alumina-based ceramic tools
4. 1.2 silicon nitride-based ceramic tools
4. 1.3 cermet tools
4. 1.4 Ceramic coating tool
4. 1.5 superhard tools
4.2 Ceramic Engine
4.2. 1 Overview
4.2.2 Research Progress of Ceramic Engine
4.2.3 Ceramic materials and components of engine
4.2.4 Development Trend of Ceramic Engine
4.3 Ceramic Armor
4.3. 1 Overview
Ceramic armor material
4.3.3 Bulletproof Performance and Mechanism of Ceramic Armor
4.3.4 Development trend of ceramic armor
4.4 ceramic bearings
4.4. 1 Classification of ceramic bearings
4.4.2 Requirements for ceramic bearing materials
4.4.3 Ceramic materials for bearings and their properties
4.4.4 Development Status of Ceramic Bearings
4.4.5 Preparation Process of Silicon Nitride Ceramic Bearing Ball
4.4.6 Application of Hybrid Ceramic Bearings
4.4.7 Suggestions on industrialization of ceramic bearings
postscript
refer to