Analysis on cooling and lubrication mechanism of high-pressure cutting fluid for vermicular cast iron cutting based on AdvantEdge
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摘要: 使用AdvantEdge软件对不同切削液压力下车削蠕墨铸铁的过程进行二维仿真,研究切削过程中切屑变形、切削温度、刀-屑摩擦及切削力的变化规律,分析高压切削液的冷却润滑机理。仿真结果表明:增大切削液压力可以减小黏结摩擦区和滑动摩擦区长度,加快切削液与工件之间的热量传递速率;同时,高压切削液能够克服莱顿弗罗斯特效应形成的气体保护层,更好地对流换热和冷却;但切削液压力并非越大越好,在15~18 MPa时可以在减少能耗的同时获得较好的冷却润滑效果。
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关键词:
- AdvantEdge /
- 蠕墨铸铁 /
- 高压切削液 /
- 冷却润滑机理
Abstract: Based on the cutting fluid simulation function of AdvantEdge, 2D turning simulation is carried out for vermicular cast iron under different cutting fluid pressures. The variation of chip deformation, cutting temperature, tool-chip friction and cutting force in the cutting process ae studied. The cooling and lubrication mechanism of high-pressure cutting fluid are also analyzed. The simulation results show that the increase of cutting fluid pressure can reduce the lengths of the sticking zone and the sliding friction zone, thereby increasing the heat exchange rate between workpiece and fluid. At the same time, the high-pressure cutting fluid can overcome the gas protective layer formed by the Leidenfrost effect, achieving better heat convection and cooling. However, the increased pressure does not lead to better cooling effect and the cutting fluid pressure should be 15 to 18 MPa for good cooling and lubrication at low energy cost.
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