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基于接触热阻的高速精密电主轴热特性分析 被引量:10

Analysis of High Speed Motorized Spindle Thermal Characteristics Based on Thermal Contact Resistance
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摘要 主轴系统热问题是高精度机床必须要考虑的关键问题,接触热阻的大小影响机床的传热性能,从而影响其加工精度.利用表面接触的分形理论,计算接触面的量纲一的接触面积,针对接触微凸体的热阻由基体热阻和收缩热阻形成接触对,建立了一个考虑接触界面基体热阻和收缩热阻的表面接触热阻模型,讨论了不同的分形参数对接触热阻的影响.以立式加工中心电主轴系统为研究对象,分析了电机的损耗发热和轴承的摩擦发热,运用有限元软件对电主轴模型在有无接触热阻2种情况下的稳态温度场和稳态热变形进行仿真分析.讨论了有无热阻情况下电主轴温度和变形变化量,论证了接触热阻对电主轴热温度场和热变形的影响.结果表明:电主轴考虑接触电阻时温度将升高,变形将增加. The spindle system heat problem is a key problem that must be considered for high precision machine tool. The thermal contact resistance( TCR) affects the heat transfer performance of a machine tool,which affects the machining accuracy. In this paper,a model considerating the bulk resistance and shrink resistance surface of TCR was established by using the fractal theory of the contact surface. Motor heat and bearing friction heat in a vertical machining center motorized spindle system were analyzed. In case of considering TCR and without considering TCR,steady state temperature field and the steady state thermal deformation were analyzed. Results demonstrate the importance of TCR to the problem thermal characteristics of motorized spindle. The temperature will be higher and the deformation will be serious when TCR is considered.
作者 刘志峰 马澄宇 赵永胜 方翠
机构地区 北京工业大学先进制造技术北京市重点实验室
出处 《北京工业大学学报》 CAS CSCD 北大核心 2016年第1期17-23,共7页 Journal of Beijing University of Technology
基金 国家自然科学基金资助项目(51375025) 北京市自然科学基金资助项目(3132004)
关键词 接触热阻 电主轴 分形 热特性 thermal contact resistance(TCR) motorized spindle fractal thermal characteristics
分类号 TH161.4 [机械工程—机械制造及自动化]
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参考文献10

  • 1CHANG C F,CHEN J J.Thermal growth control techniques for motorized spindles[J].Mechatronics,2009,19(8):1313-1320.
  • 2HOLKUP T,CAO H,KOLAR P,et al.Thermomechanical model of spindles[J].CIRP Annals Manufacturing Technology,2010,59(1):365-368.
  • 3UHLMANN E,HU J.Thermal modelling of a high speed motor spindle[J].Procedia CIRP,2012(1):313-318.
  • 4XU M,JIANG S Y,CAI Y.An improved thermal model for machine tool bearings[J].International Journal of Machine Tools&Manufacture,2007,47:53-62.
  • 5JI Cuicui,ZHU Hua,JIANG Wei.Fractal Prediction Model of Thermal Contact Conductance of Rough Surfaces[J].Chinese Journal of Mechanical Engineering,2013,26(1):128-136. 被引量:11
  • 6姬翠翠,朱华.粗糙表面分形接触模型的研究进展[J].润滑与密封,2011,36(9):114-119. 被引量:21
  • 7ZOU M,YU B,CAI J,et al.Fractal model for thermal contact conductance[J].Journal of Heat Transfer,2008,130(10):101301.
  • 8ZOU M,YU B,FENG Y,et al.A monte carlo method for simulating fractal surfaces[J].Physica A:Statistical Mechanics and its Applications,2007,386(1):176-186.
  • 9WANG S,KOMVOPOULOS K.A fractal theory of the interfacial temperature distribution in the slow sliding regime:elastic contact and heat transfer analysis[J].Journal of Tribology,1994,116(4):812-822.
  • 10WANG S,KOMVOPOULOS K.A fractal theory of the interfacial temperature distribution in the slow sliding regime:multiple domains,elastoplastic contacts and applications[J].Journal of Tribology,1994,116(4):824-832.

二级参考文献35

  • 1赵永武,吕彦明,蒋建忠.新的粗糙表面弹塑性接触模型[J].机械工程学报,2007,43(3):95-101. 被引量:107
  • 2Bowden F P, Tabor D. The friction and lubrication of solids, Part Ⅱ[ M]. Clarendon Press, Oxford, 1964.
  • 3ARCHARD J F. Elastic deformation and the laws of friction [ J]. Proc R Soc Lond A, 1957,243 : 190 - 205.
  • 4Greenwood J A,Willimson J B P. Contact of nominally flat sur- faces[J]. Proc R Soc Lond A, 1966,295:300- 319.
  • 5Whitehouse D J,Archard J F. The properties of random surface of significance in their contact[ J]. Proc R Soc Lond A, 1970, 316:97 - 121.
  • 6Sayles R S,Thomas T R. Surface topography as a non-stationary random process [ J ]. Nature, 1978,271:431 - 434.
  • 7Thomas A P,Thomas T R. Engineering surface as fractals,frac- tal aspect of mateials [ M ]. Materials Research Soc Pittsburgh, 1986.
  • 8Majumdar A, Bhushan B. Role of fractal geometry in roughness characterization and contact mechanics of surfaces[ J]. ASME J Tribology, 1990,112:205 - 216.
  • 9Wang S, Komvopoulos K. A fractal theory of the interfacial temperature distribution in the slow sliding regime. Part Ⅱ: multiple domains,elastoplastic contacts and applications [ J ]. ASME J Tribology, 1994,116:824 - 832.
  • 10Jackson R L. An analytical solution to an Archard-type fractal rough surface contact model [ J ]. Tribol Trans ,2010,53 : 543 - 553.

共引文献30

同被引文献67

引证文献10

二级引证文献37

北京工业大学学报
2016年 第1期

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