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The work included in this book pertains to advanced abrasive and nonconventional machining processes. These processes are at the forefront of modern technology, with significant practical significance. Their importance is also made clear by the case studies that are included in the research that is presented in the book, pertaining to important materials and high-end applications. However, the particularities of these manufacturing processes need to be further investigated and the processes themselves need to be optimized. This is conducted in the presented works with significant experimental and modeling work, incorporating modern tools of analysis and measurements.

Technology: general issues --- electrical discharge machining --- surface roughness --- white layer formation --- heat affected zone --- ANOVA --- aluminum alloy Al5052 --- wire EDM --- process parameters --- Inconel 617 super alloy --- DoE --- RSM method --- Box–Behnken design --- performance measures --- material removal rate --- abrasive machining --- single-sided lapping --- tool wear --- machine learning --- burnishing process --- fatigue strength --- ship propeller --- surface layer --- surface processing --- wavelet analysis --- decomposition of signals --- honing --- honing of holes --- kinematics of honing --- automation of honing --- abrasive grain trajectories --- FlexSim --- thermography --- abrasive brushing --- finishing --- fine machining --- grinding --- ceramics --- MgO-PSZ --- ZrO2 --- CNC turning --- rigidity --- surface texture --- profile parameters --- AISI 304 --- S355JR --- n/a --- Box-Behnken design

Choose an application

• Reference Manager
• EndNote
• RefWorks (Direct export to RefWorks)

The work included in this book pertains to advanced abrasive and nonconventional machining processes. These processes are at the forefront of modern technology, with significant practical significance. Their importance is also made clear by the case studies that are included in the research that is presented in the book, pertaining to important materials and high-end applications. However, the particularities of these manufacturing processes need to be further investigated and the processes themselves need to be optimized. This is conducted in the presented works with significant experimental and modeling work, incorporating modern tools of analysis and measurements.

Technology: general issues --- electrical discharge machining --- surface roughness --- white layer formation --- heat affected zone --- ANOVA --- aluminum alloy Al5052 --- wire EDM --- process parameters --- Inconel 617 super alloy --- DoE --- RSM method --- Box-Behnken design --- performance measures --- material removal rate --- abrasive machining --- single-sided lapping --- tool wear --- machine learning --- burnishing process --- fatigue strength --- ship propeller --- surface layer --- surface processing --- wavelet analysis --- decomposition of signals --- honing --- honing of holes --- kinematics of honing --- automation of honing --- abrasive grain trajectories --- FlexSim --- thermography --- abrasive brushing --- finishing --- fine machining --- grinding --- ceramics --- MgO-PSZ --- ZrO2 --- CNC turning --- rigidity --- surface texture --- profile parameters --- AISI 304 --- S355JR --- electrical discharge machining --- surface roughness --- white layer formation --- heat affected zone --- ANOVA --- aluminum alloy Al5052 --- wire EDM --- process parameters --- Inconel 617 super alloy --- DoE --- RSM method --- Box-Behnken design --- performance measures --- material removal rate --- abrasive machining --- single-sided lapping --- tool wear --- machine learning --- burnishing process --- fatigue strength --- ship propeller --- surface layer --- surface processing --- wavelet analysis --- decomposition of signals --- honing --- honing of holes --- kinematics of honing --- automation of honing --- abrasive grain trajectories --- FlexSim --- thermography --- abrasive brushing --- finishing --- fine machining --- grinding --- ceramics --- MgO-PSZ --- ZrO2 --- CNC turning --- rigidity --- surface texture --- profile parameters --- AISI 304 --- S355JR