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contributor authorLiu, Changlin
contributor authorChu, Jianning
contributor authorKe, Jinyang
contributor authorChen, Xiao
contributor authorZhang, Jianguo
contributor authorXiao, Junfeng
contributor authorXu, Jianfeng
date accessioned2022-02-06T05:41:11Z
date available2022-02-06T05:41:11Z
date copyright5/10/2021 12:00:00 AM
date issued2021
identifier issn2166-0468
identifier otherjmnm_009_02_021002.pdf
identifier urihttp://yetl.yabesh.ir/yetl1/handle/yetl/4278544
description abstractSilicon carbide (SiC) is an important material in many industrial applications. However, due to the hardness and brittleness nature, achieving ultraprecision machining of SiC is still challenging. In recent years, function surface with microstructures has been introduced in cutting tool to suppress wear process. But the wear mechanism of the structured tool has not been revealed completely. Therefore, in present research, molecular dynamic simulations were conducted to investigate the cutting performance of the microstructure on the nanoscale cutting process of 3 C-SiC. The simulation results showed that the dislocation propagation in workpiece can be suppressed with a structured tool. The microstructures have a significant influence on the stress distribution in the workpiece subsurface. Furthermore, the abrasive wear of the structured tool is obvious smaller since the edges of the tool became blunt and the contact face between tool and workpiece changed to the close-packed plane of diamond. Moreover, the amorphization of the structured tool is effectively suppressed. This study contributes to the understanding of the material behavior involved in the ultraprecision cutting of SiC.
publisherThe American Society of Mechanical Engineers (ASME)
titleMolecular Dynamic Simulation of Micro-Structured Diamond Tool in Silicon Carbide Cutting
typeJournal Paper
journal volume9
journal issue2
journal titleJournal of Micro and Nano-Manufacturing
identifier doi10.1115/1.4050969
journal fristpage021002-1
journal lastpage021002-5
page5
treeJournal of Micro and Nano-Manufacturing:;2021:;volume( 009 ):;issue: 002
contenttypeFulltext


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