Experimental Research on PCD Tool Turning SiCp/Al Composites

PEN Hongmin; LIU Xin; NI Na; CHEN Zhitao; LIU Fei; YUE Caixu

doi:10.16080/j.issn1671-833x.2020.11.014

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Experimental Research on PCD Tool Turning SiCp/Al Composites

更新时间：2025-10-30

- Experimental Research on PCD Tool Turning SiCp/Al Composites
- Aeronautical Manufacturing Technology Vol. 63, Issue 11, Pages: 14-19(2020)
- 作者机构：
  
  1. 天津航天机电设备研究所,天津,300458
  2. 哈尔滨理工大学机械动力工程学院,哈尔滨,150080
- 作者简介：
- 基金信息：
- DOI：10.16080/j.issn1671-833x.2020.11.014
  CLC：
- Published：2020
- 稿件说明：
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盆洪民，刘鑫，倪娜，陈志涛，刘飞，岳彩旭 . PCD刀具车削不同颗粒含量 SiCp/Al复合材料试验研究[J]. 航空制造技术, 2020, 63(11): 14-19.

PEN Hongmin，LIU Xin，NI Na，CHEN Zhitao，LIU Fei，YUE Caixu. Experimental Research on PCD Tool Turning SiCp/Al Composites. Aeronautical Manufacturing Technology, 2020, 63(11): 14-19.
盆洪民，刘鑫，倪娜，陈志涛，刘飞，岳彩旭 . PCD刀具车削不同颗粒含量 SiCp/Al复合材料试验研究[J]. 航空制造技术, 2020, 63(11): 14-19. DOI： 10.16080/j.issn1671-833x.2020.11.014.

PEN Hongmin，LIU Xin，NI Na，CHEN Zhitao，LIU Fei，YUE Caixu. Experimental Research on PCD Tool Turning SiCp/Al Composites. Aeronautical Manufacturing Technology, 2020, 63(11): 14-19. DOI： 10.16080/j.issn1671-833x.2020.11.014.

摘要

碳化硅铝基复合材料具有优良的导热性、较高的比强度和比刚度，在航空航天领域具有广泛的应用前景。由于此复合材料中含有增强相，导致材料的切削加工性能变差。通过试验分析了不同颗粒体积分数（纳米级 5%、微米级 25%）SiCp/Al 复合材料和切削参数（切削速度、背吃刀量、进给量）对刀具磨损和工件表面质量的影响，并对刀具磨损机理进行了研究。试验结果表明，车削微米级 25% SiCp/Al 材料时聚晶金刚石 PCD（Polycrystalline Diamond）刀具磨损更严重，且工件表面质量更差。随着进给量和背吃刀量的增大，工件表面粗糙度值增大，刀片前刀面磨损严重；随着切削速度的增大，工件表面粗糙度值减小，刀片前刀面磨损量增大。选取本文切削参数进行 SiCp/Al 复合材料的切削加工时，发现刀具磨粒磨损、微崩刃是 PCD 刀具后刀面磨损的主要成因，且刀具前刀面也会产生积屑瘤。研究结果可为 SiCp/Al 复合材料 PCD 车削工艺的优化提供理论基础。

Abstract

Silicon carbide aluminum matrix composite

which has excellent thermal conductivity

high specific strength and specific stiffness

will be widely applied in the field of aerospace. However

the reinforced phase in this composite results in poor machined surface quality and severe tool wear. Therefore

the influence of SiCp/Al materials with different particle contents (nanometer-level 5% and micron-level 25%) and cutting parameters (cutting speed

cutting depth and feed rate) on tool wear and machined surface quality were analyzed through experiments. The tool wear mechanism was also analyzed. The experimental results showed that PCD tool wear was more serious and the machined surface quality was worse when turning 25% SiCp/Al composite with micron-level particles. With the increases of feed rate and cutting depth

the machined surface roughness increased

and the rake face was seriously worn. With the increase of cutting speed

the surface roughness of the workpiece decreased

and the wear of rake face increased. Under the cutting parameters used in this research

the tool abrasive wear and blade breakage were the main wear mechanisms for PCD inserts

and built-up edge (BUE) will be generated on rake face of the cutting tool. The experimental results provide a theoretical basis for optimizing the turning process of SiCp/Al composite with PCD tools.

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