Wear mechanism of (Ti,Al)N coated carbide tools on high speed milling of 30CrNi4MoV alloy steel

Zhen Hai Long; Xi Bin Wang; Zhi Bing Liu

Wear mechanism of (Ti,Al)N coated carbide tools on high speed milling of 30CrNi4MoV alloy steel

Zhen Hai Long^*, Xi Bin Wang, Zhi Bing Liu

^*Corresponding author for this work

School of Mechanical Engineering

Research output: Contribution to journal › Article › peer-review

7 Citations (Scopus)

Abstract

High-speed dry face-milling experiments on ultra high strength alloy steel, a kind of difficult-to-cut materials, with σ_b>1.6 GPa, hardness 50 HRc, were conducted using (Ti,Al)N coated carbide tools at the cutting speed range of 118-236 m/min. By the use of SEM and energy spectrometer, and taking tool life as a criterion for a comparative evaluation of the tool's cutting performance, the wear mode and mechanisms of rake face and flank face wear, coupled with the cutting performances of carbide tools are discussed. Experiments indicate that under the conditions of high-speed cutting, the primary wear mechanisms of (Ti,Al)N coated carbide tools are adhesion, diffusion and chemical wear; the wearing modes are the rake face craters, accompanied by the peeling off the coating to expose carbide substrate in the rake face and the chippings of cutting edges.

Original language	English
Pages (from-to)	942-946
Number of pages	5
Journal	Beijing Ligong Daxue Xuebao/Transaction of Beijing Institute of Technology
Volume	24
Issue number	11
Publication status	Published - Nov 2004

Keywords

Difficult-to-cut materials
Dry machining
High-speed cutting
Milling performance

Cite this

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title = "Wear mechanism of (Ti,Al)N coated carbide tools on high speed milling of 30CrNi4MoV alloy steel",

abstract = "High-speed dry face-milling experiments on ultra high strength alloy steel, a kind of difficult-to-cut materials, with σb>1.6 GPa, hardness 50 HRc, were conducted using (Ti,Al)N coated carbide tools at the cutting speed range of 118-236 m/min. By the use of SEM and energy spectrometer, and taking tool life as a criterion for a comparative evaluation of the tool's cutting performance, the wear mode and mechanisms of rake face and flank face wear, coupled with the cutting performances of carbide tools are discussed. Experiments indicate that under the conditions of high-speed cutting, the primary wear mechanisms of (Ti,Al)N coated carbide tools are adhesion, diffusion and chemical wear; the wearing modes are the rake face craters, accompanied by the peeling off the coating to expose carbide substrate in the rake face and the chippings of cutting edges.",

keywords = "Difficult-to-cut materials, Dry machining, High-speed cutting, Milling performance",

author = "Long, {Zhen Hai} and Wang, {Xi Bin} and Liu, {Zhi Bing}",

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T1 - Wear mechanism of (Ti,Al)N coated carbide tools on high speed milling of 30CrNi4MoV alloy steel

AU - Long, Zhen Hai

AU - Wang, Xi Bin

AU - Liu, Zhi Bing

PY - 2004/11

Y1 - 2004/11

N2 - High-speed dry face-milling experiments on ultra high strength alloy steel, a kind of difficult-to-cut materials, with σb>1.6 GPa, hardness 50 HRc, were conducted using (Ti,Al)N coated carbide tools at the cutting speed range of 118-236 m/min. By the use of SEM and energy spectrometer, and taking tool life as a criterion for a comparative evaluation of the tool's cutting performance, the wear mode and mechanisms of rake face and flank face wear, coupled with the cutting performances of carbide tools are discussed. Experiments indicate that under the conditions of high-speed cutting, the primary wear mechanisms of (Ti,Al)N coated carbide tools are adhesion, diffusion and chemical wear; the wearing modes are the rake face craters, accompanied by the peeling off the coating to expose carbide substrate in the rake face and the chippings of cutting edges.

AB - High-speed dry face-milling experiments on ultra high strength alloy steel, a kind of difficult-to-cut materials, with σb>1.6 GPa, hardness 50 HRc, were conducted using (Ti,Al)N coated carbide tools at the cutting speed range of 118-236 m/min. By the use of SEM and energy spectrometer, and taking tool life as a criterion for a comparative evaluation of the tool's cutting performance, the wear mode and mechanisms of rake face and flank face wear, coupled with the cutting performances of carbide tools are discussed. Experiments indicate that under the conditions of high-speed cutting, the primary wear mechanisms of (Ti,Al)N coated carbide tools are adhesion, diffusion and chemical wear; the wearing modes are the rake face craters, accompanied by the peeling off the coating to expose carbide substrate in the rake face and the chippings of cutting edges.

KW - Difficult-to-cut materials

KW - Dry machining

KW - High-speed cutting

KW - Milling performance

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JO - Beijing Ligong Daxue Xuebao/Transaction of Beijing Institute of Technology

JF - Beijing Ligong Daxue Xuebao/Transaction of Beijing Institute of Technology

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ER -

Wear mechanism of (Ti,Al)N coated carbide tools on high speed milling of 30CrNi4MoV alloy steel

Abstract

Keywords

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