Experimental evaluation on texture of flank face on tool wear in chamfer milling of stainless steel

Abstract: This paper presents a novel grinding enabled texture, 'V' shaped texture (VST), on flank face. To implement the texture on a cutting performance, a set of chamfering experiments of stainless steel materials used as 3C product shell usually are presented. Cutting forces, surface qualities, and tool wear are measured and compared, of which results show that both smallest surface roughness and longest tool life are achieved by using a 30°VST chamfer tool. By comparing the results, a clear conclusion can be drawn … Show more

“…Functional surfaces have attracted a large number of research interests. For example, textured cutting tools which can be machined by laser [107,108] or grinding [109,110] have shown a great potential in the process of machining, with improved cutting performance in terms of machining quality and tool life. The textures on the tool surface provided a significant improvement against tool wear in the machining of superalloys [74,111].…”

A review on cutting tool technology in machining of Ni-based superalloys

“…Functional surfaces have attracted a large number of research interests. For example, textured cutting tools which can be machined by laser [107,108] or grinding [109,110] have shown a great potential in the process of machining, with improved cutting performance in terms of machining quality and tool life. The textures on the tool surface provided a significant improvement against tool wear in the machining of superalloys [74,111].…”

A review on cutting tool technology in machining of Ni-based superalloys

Optimization of the micro-textures on the cutting tool based on the penetration of the lubricant in the micro-textures

Parameter optimization of a micro-textured ball-end milling cutter with blunt round edge