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固定接触界面法向静弹性刚度的改进弹簧分形模型 被引量:14

Improved Spring Fractal Model for Normal Static Elastic Stiffness of Stationary Contact Interface
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摘要 根据赫兹接触理论推导两个微凸体之间互相作用的法向接触静弹性刚度.使用改进分形几何理论给出结合部的总法向接触静弹性条件刚度、总条件载荷的解析解.根据文献[10]的机床结合部法向变形量-压应力的经验幂律关系形式,推导界面静弹性刚度、总载荷的表达式.工程粗糙表面的算例表明,总法向刚度-载荷曲线与文献[10]的实验结论基本一致.改进分形几何理论为深入研究分形和提取结合部参数提供了坚实的基础. The solution for normal contact static elastic stiffness of two interacting asperities was derived ac- cording to Hertzian contact theory. The analytic expressions for joint interface gross normal contact static e- lastic stiffness with a certain condition and total load with a given one were deduced from the improved fractal geometric theory. The formulae for interface static elastic rigidity and total load were given in terms of an em- pirical power-law relationship of the form about machine tool joint interface normal deflection-pressure from reference[10]. The calculations of engineering rough surface make clear that the normal total stiffness-load curve is in basic agreement with the experimental conclusion stated by reference[10]. The improved fractal geometric theory will pave a firm foundation for further fractal studies as well as identifying joint interface's parameters.
作者 田红亮 朱大林 秦红玲
机构地区 三峡大学机械与材料学院
出处 《三峡大学学报(自然科学版)》 CAS 2012年第6期83-88,共6页 Journal of China Three Gorges University:Natural Sciences
基金 国家自然科学基金资助项目(51275273) 三峡大学博士科研启动基金资助项目(KJ2012B013)
关键词 固定接触界面 静弹性刚度 表面微观形貌 改进分形几何理论 stationary contact interface static elastic stiffness surface microtopography improved frac-tal geometric theory
分类号 TH113.1 [机械工程—机械设计及理论]
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参考文献14

  • 1许金泉.界面力学[M]北京:科学出版社,20061.
  • 2山田昭夫;角张毅.接触结合部をもつはり の动特性推定[J]精密工学会志(日本),1986(12):2051-2057.
  • 3Greenwood J A,Williamson J B P. Contact of Nominally Flat Surfaces[J].Proceedings of the Royal Society of London:Series A Mathematical and Physical Sciences,1966,(1442):300-319.
  • 4Burdekin M,Back N,Cowley A. Analysis of the Local Deformations in Machine Joints[J].The Journal of Mechanical Engineering Science,1979,(01):25-32.
  • 5Thornley R H,Connolly R,Barash M M. The Effect of Surface Topography Upon the Static Stiffness of Machine Tool Joints[J].International Journal of Machine Tools and Manufacture,1965,(1/2):57-74.
  • 6Guo Y F,Lucas B N,Hay J C. Nanoscale Incipient Asperity Sliding and Interface Micro Slip Assessed by the Measurement of Tangential Contact Stiffness[J].Scripta Materialia,2006,(07):653-656.
  • 7Gao Y F,Xu H T,Oliver W C. Effective Elastic Modulus of Film-on-Substrate Systems under Normal and Tangential Contact[J].Journal of the Mechanics and Physics of Solids,2008,(02):402-416.doi:10.1016/j.jmps.2007.05.015.
  • 8张学良,黄玉美,傅卫平,张文鹏.粗糙表面法向接触刚度的分形模型[J].应用力学学报,2000,17(2):31-35. 被引量:60
  • 9Majumdar A,Bhushan Bharat. Fractal Model of ElasticPlastic Contact Between Rough Surfaces[J].Journal of Tribology,Transactions of the ASME,1991,(01):1-11.
  • 10Burdekin M,Back N,Cowley A. Experimental Study of Normal and Shear Characteristics of Machined Surfaces in Contact[J].The Journal of Mechanical Engineering Science,1978,(03):129-132.

二级参考文献6

共引文献114

同被引文献228

引证文献14

二级引证文献177

三峡大学学报(自然科学版)
2012年 第6期

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