Laser assisted turning of Titanium Metal Matrix Composite
Chip morphologies
Titanium
Wear resistance
0209 industrial biotechnology
Titanium metal matrix composites
Tool life
Ceramic particle
02 engineering and technology
Laser-assisted machining
Resistance properties
Metal matrix composite
Metal cutting
Metallic matrix composites
Abrasive tools
Cutting conditions
Ceramic matrix composites
Laser-assisted
DOI:
10.1016/j.cirp.2011.03.086
Publication Date:
2011-04-22T15:16:14Z
AUTHORS (4)
ABSTRACT
Although ceramic particles in Titanium Metal Matrix Composites (TiMMCs) improve its wear resistance properties, they also cause high abrasive tool wear. In an attempt to enhance tool life and productivity, Laser Assisted Machining (LAM) of TiMMC was performed under different cutting conditions, an aspect that has never been investigated before. Analysis of the results showed that LAM can significantly increase tool life by up to 180%. The phenomenon of improved tool life at higher speeds and under LAM conditions were explained through the analysis of the chip morphology and micro-structure.
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