A review of textured cutting tools’ impact on machining performance from a tribological perspective

The effectiveness of machining, a gradual material removal process, depends significantly on the tribological attributes of cutting tools, such as friction, wear, and lubrication at the interacting surfaces between the workpiece, tool, and chip. Cutting fluids’ application is common in addressing ma...

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Veröffentlicht in:	International journal of advanced manufacturing technology 2024-08, Vol.133 (9-10), p.4023-4057
Hauptverfasser:	Sristi, Nafisa Anzum, Zaman, Prianka B.
Format:	Artikel
Sprache:	eng
Schlagworte:	CAE) and Design Computer-Aided Engineering (CAD Critical Review Cutting fluids Cutting parameters Cutting tool materials Cutting tools Cutting wear Effectiveness Engineering Industrial and Production Engineering Machinability Mechanical Engineering Media Management Parameter identification Performance evaluation Positioning devices (machinery) Surface layers Texture Texturing Tribology Turning (machining) Workpieces
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container_title	International journal of advanced manufacturing technology
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creator	Sristi, Nafisa Anzum Zaman, Prianka B.
description	The effectiveness of machining, a gradual material removal process, depends significantly on the tribological attributes of cutting tools, such as friction, wear, and lubrication at the interacting surfaces between the workpiece, tool, and chip. Cutting fluids’ application is common in addressing machining challenges like localized heat buildup. However, due to environmental concerns, innovative techniques, such as incorporating textured cutting tools, are being explored to reduce their use while enhancing tribological performance. This study aims to comprehensively review textured cutting tools, exploring various aspects employed in turning and other machining processes and their influence on machinability. Furthermore, it will critique existing studies, identifying limitations and suggesting areas for future research endeavors. Though evaluating machining performance based on tribology is crucial, many studies lack it. Therefore, this research endeavors to enrich comprehension of textured cutting tools’ tribological characteristics, aiming to enhance machinability and stimulate further investigation into sustainable manufacturing techniques. The study highlights the need to find the optimal surface texturing and cutting parameters for best machining performance, emphasizing the critical role of texture positioning relative to the cutting tool’s edges. Concerning tool durability, the method of creating surface texture is crucial, with hardness testers emerging as a cost-effective, simple, and efficient mechanical option deserving further investigation.
doi_str_mv	10.1007/s00170-024-13865-5
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subjects	CAE) and Design Computer-Aided Engineering (CAD Critical Review Cutting fluids Cutting parameters Cutting tool materials Cutting tools Cutting wear Effectiveness Engineering Industrial and Production Engineering Machinability Mechanical Engineering Media Management Parameter identification Performance evaluation Positioning devices (machinery) Surface layers Texture Texturing Tribology Turning (machining) Workpieces
title	A review of textured cutting tools’ impact on machining performance from a tribological perspective
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