Chapter 1: Properties of Ceramics
1.2. Wear mechanisms of ceramics materials
1.3. Fundamental properties and selection criteria
1.4. Microstructural reinforcement of ceramics
Chapter 2: Deformation and Fracture of Ceramic Materials
2.5. Fracture of ceramic materials
2.6. Indentation in ceramic materials
3.1. Typology of abrasive processes
3.2. Tribology of abrasive processes
3.3. Single point scratch tests
3.4. Multi point scratch tests
3.5. General model of abrasive processes
3.6. Surface topography and surface integrity
4.3. Conditioning of grinding wheels
4.8. Properties of ground surface
Chapter 5: Honing and Superfinishing
5.1. Typology of the honing process
5.2. Honing and superfinishing tools
5.3. Honing and superfinishing machines
Chapter 6: Lapping and Polishing
6.2. Typology of processes with loose abrasives
6.5. Chemical compound polishing
Chapter 7: ELID Grinding and Polishing
7.4. Electrical aspects of ELID grinding
7.5. Grinding wheels for ELID applications
7.6. ELID grinding of ceramics
7.7. Material removal mechanisms in grinding of ceramics and glasses
7.8. Comparison between ELID and other grinding techniques
7.9. Applications of ELID grinding
Chapter 8: Grind/Lap of Ceramics with UV-Bonded Diamond Wheels
8.3. Manufacturing of UV-bonded diamond wheel
8.4. Kinematic analysis of grind/lap
8.5. Effects of UV-bonded wheel
8.6. Optimal methods for improving grind/lap of ceramics
Chapter 9: ELID Grinding with Lapping Kinematics
9.3. Kinematics of the ELID grinding with lapping kinematics
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