摘要
金属基复合材料(MMCs),特别是颗粒增强铝基复合材料(PRAMCs)因其良好的综合性能具有广阔的应用前景,但其难切削性限制了进一步发展与应用。通过实验:采用PCD刀具、在不同切削条件下对高体分Si Cp/Al复合材料进行高速铣削。探讨了铣削速度、进给量、切削深度对表面完整性(表面粗糙度、表面残余应力和表面形态)的影响,并且建立了高速铣削时的表面粗糙度和表面残余应力预测模型。为铝基复合材料的相似高速切削提供了实例参考和理论依据。
Due to its excellent and comprehensive performances, metal matrix composites (MMCs), especially the particle reinforced aluminum matrix composites (PRAMCs), has a broad application prospect. But the poor machinability has become a limitation to its further development and application. A systematic experimental re- search of high speed milling of A1/SiC/65p (65% volume fraction) under different conditions using polycrystalline diamond tools (PCD) was presented. The influences of milling speed, feed rate and milling depth on machined surface integrety (surface roughness (Ra), surface residual stress (RS) and morphology were investigated and the prediction models of surface roughness, surface residual stress in high-speed milling was built. An example of refer- ence and a theoretical basis for the similar high-speed milling cases were provided.
出处
《科学技术与工程》
北大核心
2015年第2期217-221,共5页
Science Technology and Engineering
基金
中北大学科学基金项目资助
关键词
颗粒增强
铝基复合材料
高速铣削
表面完整性
预测模型
particle reinforceprediction modelsaluminum matrix compositeshigh-speed milling surface integrety
