Machining of Ceramics and CompositesPresenting modern advances in the machining of ceramics and composites, this work offers broadly based, fundamental information for selecting the appropriate machining processes and parameters, developing successful manufacturing strategies, and designing novel machining systems. It focuses on scientific and engineering developments affecting the present and future of machining processes. |
Contents
Abrasive Machining of Ceramics | 1 |
Mechanisms of Material Removal in Abrasive Machining | 11 |
Grinding of Advanced Ceramics | 85 |
HighSpeed Grinding of Ceramics | 119 |
DuctileRegime Grinding of Brittle Materials | 139 |
Lapping and Polishing of Glass and Ceramics | 177 |
Machining of PolymerMatrix and MetalMatrix Composites | 209 |
Milling of Advanced Composites | 249 |
Environmental Effects and Safety in Machining | 411 |
Nontraditional Machining Methods | 427 |
Ultrasonic Machining of Ceramics | 483 |
Rotary Ultrasonic Machining of Ceramics | 525 |
LaserAssisted Turning of Ceramics | 551 |
Inspection and Damage Evaluation | 575 |
Measurement of MachiningInduced Residual Stresses | 649 |
Applications of Optical Scattering Methods to Damage Detection | 669 |
Common terms and phrases
abrasive alumina aluminum axial brittle materials ceramics chining chip thickness components composite materials coolant counterface cutting edge cutting fluid cutting force cutting speed cutting tool deformation delamination depth of cut diameter diamond direction drilling ductile ductile grinding effect feed rate fiber orientation FIGURE flank wear form tool fracture FRPs glass Gr/Ep grain size grinding force grinding process grinding wheel grit Hashish impact increase indentation influence laminate layer load m/min machined surface material removal rate measured mechanisms metal matrix composites microcracks microstructure milling MMCs operation optical particles PCD inserts PCD tools plastic pressure radial rake angle rake angle Ramulu reinforced residual stresses rotary ultrasonic scratching shown in Fig shows silicon carbide silicon nitride SiSiC specimens strength subsurface damage surface finish surface quality surface roughness temperature thermal tool material tool wear turning ultrasonic machining vibration water jet workpiece workpiece material zone
Popular passages
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