期刊文献+

介观尺度微型铣床开发及性能试验 被引量:25

DEVELOPMENT OF MESO-SCALE MILLING MACHINE TOOL AND ITS PERFORMANCE ANALYSIS
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摘要 针对微机电系统(Microeletro mechanical system,MEMS)技术和超精密加工技术局限,开展面向介观尺度微细铣削技术的研究。首先根据介观尺度铣削的加工特点,对其机理研究的关键问题进行详细的分析和讨论,提出微细铣削理论的研究重点及研究方法。然后在分析微细铣削成形条件和加工要求的基础上,开发微型铣床系统,并对系统各组成子系统及性能指标进行描述。最后开展机床加工性能评估试验,通过精度测量、误差分析和误差补偿提高工作台的定位精度达到1.62μm,采用直径0.127 mm铣刀开展微铣削试验,通过表面粗糙度测量和同心圆切削试验评估机床的加工精度,在此基础上通过复杂零件加工实例进一步说明机床的加工能力,论证小型化机床加工技术的可行性和实用性。 In order to overcome the shortcomings of current technologies for meso scale manufacturing, such as MEMS and ultra precision machining, meso milling process with miniaturized machine tool is developed. First, the related technologies for the process mechanic research are investigated based on the characteristics of meso milling process. An overview of the key issues is presented and research approaches are proposed as well. Then, the meso machine tool system is developed for the mechanisms research. The subsystems and their specifications are described. Finally, some tests are done to evaluate the system performance. The tests consist of the positioning subsystem precision measurement, the assessment test for machining process and the experiments for some machining cases. Through these test analysis, meso milling process is proved to be feasible and applicable.
出处 《机械工程学报》 EI CAS CSCD 北大核心 2006年第11期162-167,共6页 Journal of Mechanical Engineering
基金 国家自然科学基金(50575134) 上海交通大学211重点建设基金(W221702003)资助项目
关键词 介观尺度 微细制造 铣削加工 微型机床 Meso scale Meso manufacturing Milling process Miniaturized machine tool
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参考文献13

  • 1LU Z N,TAKESHI Y.Micro cutting in the micro lathe turning system[J].International Journal of Machine Tools & Manufacture,1999,39(7):1 171-1 183.
  • 2LIU X,VOGLER M P,KAPOOR S G,et al.Microendmilling with meso-machine-tool system[C]//NSF Design,Service and Manufacturing Grantees and Research Conference Proc.,Dallas,TX,2004:1-9.
  • 3孙雅洲,梁迎春,程凯.微米和中间尺度机械制造[J].机械工程学报,2004,40(5):1-6. 被引量:55
  • 4赵万生,李文卓,王振龙.高精度微细电火花加工系统的研制[J].电加工与模具,2004(1):6-8. 被引量:28
  • 5KURITA T,HATTORI M.Development of new concept desk top size machine tool[J].International Journal of Machine Tool and manufacture,2005,45(7):959-965.
  • 6LUCCA D A,RHORER R L,KOMANDURI R.Energy dissipation in the ultraprecision machining of copper[J].CIRP Ann.,1991,40(1):69-72.
  • 7VOGLER M P,DEVOR R E,KAPOOR S G,et al.Microstructure-Level force prediction model for micromilling of multi-phase materials[J].ASME Journal of Manufacturing Science and Engineering,2003,125(2):202-209.
  • 8KIM C J,MAYOR J R,NI J.A static model of chip formation in mieroscale milling[J].ASME Journal of Manufacturing Science and Engineering,2004,126(4):710-718.
  • 9IKAWA N,SHIMSFS S,TANAKA H.Minimum thickness of cut in micromachining[J].Nanoteehnology,1992,3(1):6-9.
  • 10MILTON C S.Metal cutting principles[M].London:Clarendon Press,1984.

二级参考文献20

  • 1谢良富,张鸿海,陈日曜,黄奇葵.极薄磨削下磨屑形成机理探讨[J].华中理工大学学报,1994,22(2):35-39. 被引量:3
  • 2刘晋春 赵家齐.特种加工[M].北京:机械工业出版社,1997..
  • 3Lawn B R, Swain M R. Indentation Fracture:Principles and Applications. Journal of Materials Scicence, 1975, 10 (6): 1049-1081
  • 4张增扬.光学零件的金刚石加工[M].北京:机械工业出版社,1991..
  • 5Majumdar A,Lien C L. Fractal characterization and simulation of rough surface. Wear, 1990, 136:313~327
  • 6肯尼思·法尔科内. 分形几何--数学基础及其应用. 沈阳:东北大学出版社,2001
  • 7张立德,牟季美. 纳米材料和纳米结构. 北京:科学出版社,2002
  • 8ToshimichiMoriwaki.超精密加工的实验分析[J].Int. J. Japan Soc. Prec. Eng.,1995,29(4):68-69.
  • 9袁哲俊, 王先逵. 精密和超精密加工技术. 北京:机械工业出版社, 1999
  • 10Masuzawa T, Tonshoff H K. Three-dimensional micromachining by machine tools. Annals of the CIRP, 1997, 46(2):621~628

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引证文献25

二级引证文献151

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