中国机械工程2026,Vol.37Issue(4):885-899,15.DOI:10.3969/j.issn.1004-132X.2026.04.013
刀具表面微织构与微量润滑协同技术研究进展
Research Progresses on Synergistic Technology of Micro-textured and Minimum Quantity Lubrication on Tool Surfaces
摘要
Abstract
This paper systematically reviewed the research progresses of MQL and micro-textured tool technology in DMMs cutting in recent years,and focused on analyzing the synergistic mechanism and the influences on DMMs cutting performance.Compared with dry cutting,the synergistic effects of micro-textured+MQL may reduce the average cutting force by 25%to 48.3%,reduce the cutting temperature by 20%to 50%,improve the surface roughness by 15%to 40%,and extend the tool life by 1.5 to 2.4 times.The existing research is yet to be strengthened in the following aspects:first,quantitative theoreti-cal model of synergistic mechanism;second,adaptability analysis for different materials;and third,experi-mental verification of long-term stability under industrialized conditions.Future research should focus on the construction of quantitative synergistic models based on thermodynamic and tribological behaviors,es-pecially the optimization of the applications in the machining of high-strength and high-temperature materi-als such as titanium-based alloys and aluminum-based alloys,and the verification of the industrial applica-tion value through the evaluation of the long-term performance under actual working conditions.关键词
难加工金属材料/微量润滑/微织构刀具/协同机制/切削性能Key words
difficult-to-machine metallic material(DMM)/minimum quantity lubrication(MQL)/micro-textured tool/synergistic mechanism/cutting performance分类
矿业与冶金引用本文复制引用
牛秋林,朱陈一,吴炳辉,张晟逢,郭涛,高菁忆..刀具表面微织构与微量润滑协同技术研究进展[J].中国机械工程,2026,37(4):885-899,15.基金项目
湖南省自然科学基金(2025JJ50275) (2025JJ50275)
国家自然科学基金(52075168) (52075168)
