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关节轴承摩擦温度场计算方法
引用本文:俞建卫,王礼飞,魏巍. 关节轴承摩擦温度场计算方法[J]. 中国机械工程, 2015, 26(10): 1284-1288
作者姓名:俞建卫  王礼飞  魏巍
作者单位:合肥工业大学,合肥,230009
基金项目:国家自然科学基金资助项目(51075114)
摘    要:以推力型关节轴承为研究对象,分析了轴向载荷下的接触应力,并根据试验所得摩擦力矩反推出了动态摩擦因数。结合接触应力及摩擦因数求出了摩擦热流率,并将其作为第二类边界条件进行了轴承非定常温度场有限元分析,最后利用红外热像仪拍摄了摩擦过程中轴承侧表面温度分布,检验仿真结果的可靠性。仿真与试验结果表明:该计算方法解决了球面摩擦副摩擦因数的精确计算和热流率的空间分配问题,建模时忽略球面间隙会直接影响接触应力分布并造成温度场分布出现较大误差,考虑球面间隙可以更精确地计算轴承摩擦温度场。

关 键 词:关节轴承  球面间隙  接触应力  温度场  红外测量  有限元  

Calculation Method of Spherical Plain Bearing Friction Temperature Field
Yu Jianwei,Wang Lifei,Wei Wei. Calculation Method of Spherical Plain Bearing Friction Temperature Field[J]. China Mechanical Engineering, 2015, 26(10): 1284-1288
Authors:Yu Jianwei  Wang Lifei  Wei Wei
Affiliation:Hefei  University  of  Technology,Hefei,230009
Abstract:Taking thrust  spherical  plain  bearing  as the  research object,the  contact stress under axial load was analyzed and based on the experimental friction torque  the  dynamic friction coefficient was solved.Then combined with contact stress and friction  coefficient,heat  flow rate was calculated and served as  the second boundary condition  for  the  unsteady temperature field finite element analysis of the bearing.Finally,using  infrared  camera to shoot the outer surface of  two-dimensional temperature distribution  of the  bearing friction process,then reliability of  simulation results was tested.Simulation  and  experimental results show that: the calculation method has solved the problems of  accurate calculation of spherical friction coefficient and spatial distribution of the heat flow rate.Ignoring  the  spherical gap when modeling will  affect the contact stress distribution   directly and cause a larger error in temperature distribution.Considering a spherical gap  a more accurate bearing friction temperature  field can be  obtained.
Keywords:spherical ,plain bearing  spherical gap  contact stress  temperature field  infrared measurement  finite element,
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