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基于微纳米摩擦学的超精密加工技术研究进展 被引量:2

Development of ultraprecision machining based on micro/nano-tribology
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摘要 回顾了超精密加工机理研究的几种主要方法,重点介绍了结合微观摩擦磨损和分子动力学模拟的微纳米加工材料去除机理的研究现状。在此基础上,简单讨论了微摩擦磨损与微纳米切削加工的关系,试图说明当切削深度小到接近于刀具的刃口半径时,微纳米切削加工中刀具与工件的作用过程近似于滑动摩擦作用过程,基于微摩擦学的微纳米加工机理的研究是合适的、有意义的。 Several main methods on the study of ultra-precision machining mechanism are briefly reviewed. The current status of the re- search on mechanisms of materials removal in micro/nano-cutting in combination with micro/nano-tribology and molecular dynamics simulation is introduced in detail. On the basis of the discussion about the relationship between micro/nano-tribology and nano-cutting, an attempt was made to explain that when cutting depth is reduced to the size of the edge radius of the cutting tool, the acting process between the cutting toolandthe workpieceisapproximately sliding friction cutting. The study of micro/nano-machining mechanism based on micro/nano-tribology is appropriate and valuable.
作者 王加春 刘志平
机构地区 燕山大学机械工程学院
出处 《燕山大学学报》 CAS 2004年第6期475-479,共5页 Journal of Yanshan University
基金 河北省教育厅博士基金项目(No. B2004132)
关键词 切削加工 刀具 微摩擦 超精密加工技术 刃口 纳米加工 工件 微观摩擦 纳米摩擦学 磨损 molecular dynamics simulation micro/nano-tribology micro/nano-machining edge radius
分类号 TH73 [机械工程—精密仪器及机械] TG665 [金属学及工艺—金属切削加工及机床]
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参考文献23

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二级参考文献1

共引文献1

同被引文献3

  • 1佐々木,芦田,森田,吉田.东京:1998年度精密工学会春季大会讲演论文集[C].日本:1998:231.
  • 2Park J W,Lee D W,Kawasegi N,Morita N.Nanoscale Fabrication in Aqueous Solutionusing Tribo-Nanolithography[J].Journal of the Korean Society of Precision Engineering,2005,22(2).
  • 3王玉玲.精密和超精密加工技术的发展现状与展望[J].机械管理开发,2002,17(3):60-60. 被引量:2

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燕山大学学报
2004年 第6期

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