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Eddy currents. --- Surface cracks. --- Thin plates. --- Titanium. --- Metal plates. --- Image processing. --- Detection.

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Machining remains one of the most important manufacturing processes in the metalworking industry. Studies on this process have investigated the machinability of different materials, the behaviour of tools, chip formation, surface integrity, forces involved, and its economic and environmental sustainability. New materials are constantly being developed, and machining research needs to closely follow these developments. This book examines recent research in the machining field, covering several aspects and presenting very interesting developments in this area of knowledge.

Technology: general issues --- magnesium alloy --- UNS M11917 --- AZ91D --- hole repair --- surface roughness --- dry drilling --- re-drilling --- thin plates --- thin-wall --- machining --- aluminium --- cutting forces --- roughness --- dry --- carbide tool --- Haynes 282 --- finishing turning --- UNS A97075 --- dry turning --- surface integrity --- straightness --- parallelism --- roundness --- concentricity --- circular run-out --- total run-out --- cylindricity --- tool edge preparation --- segmented chip --- machining simulation --- burr --- optimization --- turning process --- turning tools --- solid tools --- cemented carbide --- coated tools --- coated cemented carbide --- Physical Vapor Deposition (PVD) --- Chemical Vapor Deposition (CVD) --- multilayered coatings --- nanolayered coatings --- wear mechanism --- tool life --- minimum quantity Lubricant (MQL) --- cutting energy --- tool damage --- liquid nitrogen --- carbon dioxide snow --- vibrations --- part quality --- flexible vacuum fixture --- AA2024 floor milling --- chip segmentation --- damage modeling --- dynamic strain aging --- stainless steel --- Ca treatment --- machinability --- turning --- chip breakability --- weight distribution --- non-metallic inclusions --- AWJM (abrasive water jet machining) --- CFRTP (carbon fiber-reinforced thermoplastics) --- hybrid structure --- surface quality --- Ra --- Rz --- C/TPU (carbon/thermoplastic polyurethane) --- milling --- tool coating --- TiAlN --- TiAlN-based coatings --- multilayer --- nanolayer --- wear mechanisms --- n/a

Choose an application

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

Machining remains one of the most important manufacturing processes in the metalworking industry. Studies on this process have investigated the machinability of different materials, the behaviour of tools, chip formation, surface integrity, forces involved, and its economic and environmental sustainability. New materials are constantly being developed, and machining research needs to closely follow these developments. This book examines recent research in the machining field, covering several aspects and presenting very interesting developments in this area of knowledge.

Technology: general issues --- magnesium alloy --- UNS M11917 --- AZ91D --- hole repair --- surface roughness --- dry drilling --- re-drilling --- thin plates --- thin-wall --- machining --- aluminium --- cutting forces --- roughness --- dry --- carbide tool --- Haynes 282 --- finishing turning --- UNS A97075 --- dry turning --- surface integrity --- straightness --- parallelism --- roundness --- concentricity --- circular run-out --- total run-out --- cylindricity --- tool edge preparation --- segmented chip --- machining simulation --- burr --- optimization --- turning process --- turning tools --- solid tools --- cemented carbide --- coated tools --- coated cemented carbide --- Physical Vapor Deposition (PVD) --- Chemical Vapor Deposition (CVD) --- multilayered coatings --- nanolayered coatings --- wear mechanism --- tool life --- minimum quantity Lubricant (MQL) --- cutting energy --- tool damage --- liquid nitrogen --- carbon dioxide snow --- vibrations --- part quality --- flexible vacuum fixture --- AA2024 floor milling --- chip segmentation --- damage modeling --- dynamic strain aging --- stainless steel --- Ca treatment --- machinability --- turning --- chip breakability --- weight distribution --- non-metallic inclusions --- AWJM (abrasive water jet machining) --- CFRTP (carbon fiber-reinforced thermoplastics) --- hybrid structure --- surface quality --- Ra --- Rz --- C/TPU (carbon/thermoplastic polyurethane) --- milling --- tool coating --- TiAlN --- TiAlN-based coatings --- multilayer --- nanolayer --- wear mechanisms --- magnesium alloy --- UNS M11917 --- AZ91D --- hole repair --- surface roughness --- dry drilling --- re-drilling --- thin plates --- thin-wall --- machining --- aluminium --- cutting forces --- roughness --- dry --- carbide tool --- Haynes 282 --- finishing turning --- UNS A97075 --- dry turning --- surface integrity --- straightness --- parallelism --- roundness --- concentricity --- circular run-out --- total run-out --- cylindricity --- tool edge preparation --- segmented chip --- machining simulation --- burr --- optimization --- turning process --- turning tools --- solid tools --- cemented carbide --- coated tools --- coated cemented carbide --- Physical Vapor Deposition (PVD) --- Chemical Vapor Deposition (CVD) --- multilayered coatings --- nanolayered coatings --- wear mechanism --- tool life --- minimum quantity Lubricant (MQL) --- cutting energy --- tool damage --- liquid nitrogen --- carbon dioxide snow --- vibrations --- part quality --- flexible vacuum fixture --- AA2024 floor milling --- chip segmentation --- damage modeling --- dynamic strain aging --- stainless steel --- Ca treatment --- machinability --- turning --- chip breakability --- weight distribution --- non-metallic inclusions --- AWJM (abrasive water jet machining) --- CFRTP (carbon fiber-reinforced thermoplastics) --- hybrid structure --- surface quality --- Ra --- Rz --- C/TPU (carbon/thermoplastic polyurethane) --- milling --- tool coating --- TiAlN --- TiAlN-based coatings --- multilayer --- nanolayer --- wear mechanisms