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颗粒陶瓷增强钛基复合材料磨削表面形貌仿真与试验研究 被引量:4

Surface Morphology Simulation and Experimental Study of Grinding for Ceramic Particles Reinforced Titanium Matrix Composite
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摘要 使用Deform-3D软件开展了单颗金刚石磨粒磨削颗粒陶瓷增强钛基复合材料的过程仿真,研究了复合材料磨削亚表面裂纹的萌生与扩展规律以及不同工艺参数对磨削表面形貌的影响;开展了树脂结合剂金刚石砂轮磨削复合材料的实验,分别研究了不同陶瓷颗粒粒度与磨削工艺参数对磨削表面形貌的影响规律,对不同工艺参数下的磨削表面粗糙度进行测量与分析。结果表明,试验结果与仿真结果较为一致;陶瓷颗粒粒度为40μm的复合材料磨削表面质量明显高于陶瓷颗粒粒度为80μm的复合材料。当砂轮线速度为25m/s、进给速度为12m/min时,磨削表面质量最优;在沿复合材料激光制备方向上的磨削表面粗糙度受砂轮线速度和工件进给速度的双重作用,而垂直于激光制备方向,表面粗糙度随砂轮线速度的增加或工件进给速度的降低而有所减小。 Grinding simulation of ceramic particles reinforced titanium matrix c6mposite materials using single diamond abrasive is conducted in Deform-3D. Based on the simulation results, the cracks initiation and propagation rules on sub-surface of ceramic materials are obtained, and the grinding surface morphologies under different processing parameters are analyzed. Besides, the grinding experiments of composite materials are carried out with a resin bonded diamond grinding wheel, in order to study the effects on grinding surface morphology by different ceramic grain sizes and grinding processing parameters. After that, the grinding surface roughness under different processing parameters is also measured and analyzed. It is concluded that the simulation result is similar to that of experiment. The surface quality of composite materials with ceramic grain diameter 40~tm is better than that with ceramic grain diameter 80~tm. When the linear velocity of grinding wheel is 25m/s and feed speed of workpiece is 12rn/min, brittle breaking on grinding surface of composite materials occurs less, resulting in better surface quality. As for the surface roughness, it is of dual influence by the linear velocity of grinding wheel and feed speed of workpiece along the laser manufacturing direction. While in the direction perpendicular to the laser manufacturing, grinding surface roughness will get smaller with the linear velocity of grinding wheel increasing or the feed speed of workpiece decreasing.
作者 赵耀邦 陈文旗 欧阳自鹏 李中权 刘公雨 安庆龙
机构地区 上海航天精密机械研究所 上海交通大学机械与动力工程学院
出处 《航天制造技术》 2017年第5期9-14,共6页 Aerospace Manufacturing Technology
关键词 颗粒陶瓷增强钛基复合材料 磨削仿真 表面形貌 ceramic particles reinforced titanium matrix composite grinding simulation surface morphology
分类号 TB333 [一般工业技术—材料科学与工程] TG580.6 [金属学及工艺—金属切削加工及机床]
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2017年 第5期

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