Batista, M.; Del Sol, I.; Gomez-Parra, A.; Ramirez-Peña, M.; Salguero, J. Study of the Tool Wear Process in the Dry Turning of Al–Cu Alloy. Metals2019, 9, 1094.
Batista, M.; Del Sol, I.; Gomez-Parra, A.; Ramirez-Peña, M.; Salguero, J. Study of the Tool Wear Process in the Dry Turning of Al–Cu Alloy. Metals 2019, 9, 1094.
Batista, M.; Del Sol, I.; Gomez-Parra, A.; Ramirez-Peña, M.; Salguero, J. Study of the Tool Wear Process in the Dry Turning of Al–Cu Alloy. Metals2019, 9, 1094.
Batista, M.; Del Sol, I.; Gomez-Parra, A.; Ramirez-Peña, M.; Salguero, J. Study of the Tool Wear Process in the Dry Turning of Al–Cu Alloy. Metals 2019, 9, 1094.
Abstract
Light alloys machining is a widely implemented process that have usually used in presence of cutting fluids to reduce the wear impact and increase tool life. However, current environmental protection policies require their elimination in order to improve process sustainability. This fact forces to work under aggressive cutting conditions, producing adhesion wear that affects the integrity of the part surface. This study describes cutting tool wear mechanisms in machining of UNS A92024 samples under dry cutting conditions. EDS analysis showed the different composition of the adhered layers, while roughness was also positively affected by the change of the cutting geometry produced in the tool.
Keywords
tool wear; aluminum alloys; adhesion; turning
Subject
Engineering, Industrial and Manufacturing Engineering
Copyright:
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