Subsurface Damage in High-Speed Grinding of Difficult-to-Machine Materials

GUO Sai; JIANG Qinghong; LIU Hao; LU Shouxiang; ZHANG Bi

doi:10.16080/j.issn1671-833x.2023.14.059

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Subsurface Damage in High-Speed Grinding of Difficult-to-Machine Materials

更新时间：2025-10-30

- Subsurface Damage in High-Speed Grinding of Difficult-to-Machine Materials
- Aeronautical Manufacturing Technology Vol. 66, Issue 14, Pages: 59-71(2023)
- 作者机构：
  
  南方科技大学,深圳,518055
- 作者简介：
- 基金信息：
- DOI：10.16080/j.issn1671-833x.2023.14.059
  CLC：
- Published：2023
- 稿件说明：
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郭塞，江庆红，刘昊，卢守相，张璧. 难加工材料超高速磨削亚表面损伤研究[J]. 航空制造技术, 2023, 66(14): 59-71.

GUO Sai, JIANG Qinghong, LIU Hao, LU Shouxiang, ZHANG Bi. Subsurface Damage in High-Speed Grinding of Difficult-to-Machine Materials[J]. Aeronautical Manufacturing Technology, 2023, 66(14): 59-71.
郭塞，江庆红，刘昊，卢守相，张璧. 难加工材料超高速磨削亚表面损伤研究[J]. 航空制造技术, 2023, 66(14): 59-71. DOI： 10.16080/j.issn1671-833x.2023.14.059.

GUO Sai, JIANG Qinghong, LIU Hao, LU Shouxiang, ZHANG Bi. Subsurface Damage in High-Speed Grinding of Difficult-to-Machine Materials[J]. Aeronautical Manufacturing Technology, 2023, 66(14): 59-71. DOI： 10.16080/j.issn1671-833x.2023.14.059.

摘要

航空航天领域关键零部件往往采用高性能难加工材料制成，极差的可磨削性使得材料的高质高效加工成为难以突破的瓶颈。本文提出采用超高速磨削方法解决上述问题，并针对多种具有代表性的航空航天领域工程材料，包括钛合金、镍基高温合金、反应烧结碳化硅及铝基碳化硅开展超高速磨削试验，对材料表面完整性进行了表征和分析讨论。结果表明，超高速磨削可提高工件表层材料的应变梯度和温度梯度，改善难加工金属、陶瓷、复合材料的可磨削性，降低亚表面损伤深度，提高材料去除效率。本文的探索性研究为航空航天难加工材料零部件的高质高效加工提供了一条可行的技术路线，具有广阔的应用前景。

Abstract

The key components applied in the aerial and aerospace fields are often made of high-performance materials that are always difficult to machine

which has become a bottle-neck problem hindering the development of related industries due to the lack of high-efficiency and high-quality machining methods for these materials. In this paper

high-speed grinding (HSG) is proposed to solve the problems with conventional machining of titanium alloys

nickel-based superalloys

reaction-bonded silicon carbide (RB–SiC)

and aluminum silicon carbide metal matrix composite (SiCp/Al). The surface integrity of different materials after grinding at various conditions are characterized

analyzed

and discussed. The results show that HSG can increase the workpiece surface strain gradient and temperature gradient

reduce the depth of subsurface damage

as well as improve grindability and grinding efficiency for difficult-to-machine metals

ceramics

and composites. The exploratory research in this paper provides a feasible technical route for high-efficiency and high-quality machining of difficult-to-machine materials for broad application prospects in aerial and aerospace fields.

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