计算流体动力学在最小量润滑加工中的应用

Payal Chauhan, Anjali Gupta, A. Thakur
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引用次数: 0

摘要

本文综述了最小量润滑(MQL)加工的仿真研究。最小量润滑(MQL)是一种将切削液以极低的速率提供,形成超细液滴的方法,借助加压空气通过喷嘴以高速撞击工件,而不留下任何废物进行处理。最小量润滑(MQL)的性能取决于MQL系统产生的喷雾。喷雾质量由液滴数量、平均直径、液滴压力和液滴速度来定义,并取决于冷却剂流量、空气流量、压缩空气压力、喷嘴方向和喷嘴几何形状等因素。进一步从文献综述中得出结论,增大空气压力和增大油的流量会产生液滴,这些液滴可以很容易地穿透刀具-切屑界面,使喷嘴与刀具轴呈一定角度放置,从而提供有效的润滑。更好的润滑可以延长刀具寿命,改善表面光洁度,降低切削温度和切削力。
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Application of Computational Fluid Dynamics in MQL (Minimum Quantity Lubrication) Machining
This paper presents an overview of simulation studies done on minimum quantity lubrication (MQL) machining. Minimum quantity lubrication (MQL) is a method where cutting fluid is supplied at very low rate forming ultra-fine droplets that with the help of pressurized air strikes the work piece with high velocity through nozzle without any waste being left for disposal. Minimum quantity lubrication’s (MQL) performance is dependent on the spray generated by the MQL system. The spray quality is defined by number of droplets, sauter mean diameter, pressure of droplets and velocity of droplets and depends on factors such as coolant flow rate, flow rate of air, pressure of compressed air, nozzle orientation and nozzle geometry. Further it is concluded from literature review that the increase in air pressure and increase in flow rate of oil produced the droplets that can penetrate the tool-chip interface easily to provide effective lubrication with nozzle placed at some angle to the tool axis. Better lubrication increases tool life, improves surface finish, reduced cutting temperature and cutting forces.
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