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Molecular Dynamics Simulation of Physical Effect of Water in Nanometric Cutting

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ã€Authorã€‘ Li Zhanjie;Fang Fengzhou;Gong Hu;Chen Yunhui;Qiu Zhoujun;Song Le;School of Precision Instrument and Opto-Electronics Engineering,Tianjin University;Tianjin Key Laboratory of High Speed Cutting and Precision Machining;Tianjin Centre of Micro/Nano Manufacturing;

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ã€Abstractã€‘ To reduce tool wear and improve the surface integrity of workpiece,molecular dynamics simulations of water lubrication assisted diamond nanometric cutting of single-crystal copper were conducted. The comparison of lattice deformation,cutting force and heat dissipation between dry and lubricated cutting was made. The effects of water-based lubricant and intermittent cutting on tool wear and surface integrity were discussed. It is found that water molecules can effectively separate the tool surface and the substrate,but direct interaction between tool tip and copper atoms cannot be avoided because of very high contact pressure and easy-to-be-penetrated water film. The simulation illustrates that water lubrication is beneficial for improving the surface integrity of workpiece,reducing friction,and decreasing the heat generation on the tool surface,but the extreme pressure at the tool tip prevents the total elimination of tool wear. Intermittent cutting is beneficial for maintaining water layer.æ›´å¤š è¿˜åŽŸ

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ã€Key wordsã€‘ molecular dynamicsï¼› nanometric cuttingï¼› lubricantï¼› wearï¼› surface integrityï¼›

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Molecular Dynamics Simulation of Physical Effect of Water in Nanometric Cutting

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