摘要
针对薄壁轴承在制造、安装过程中套圈变形引起的轴承摩擦力矩变化机理不明的问题,基于滚动轴承动力学理论,构建了计入套圈变形时变表征的薄壁角接触球轴承动力学分析模型与摩擦力矩数学模型,研究了套圈沟曲率半径、变形相位角、半幅值及工况条件对轴承摩擦特性的影响规律。结果表明:沟曲率半径系数对轴承摩擦力矩的影响随转速临界值变化而发生改变,该转速值在计入套圈变形时较理想套圈会出现超前或滞后。优化配置套圈变形相位角可降低变形对摩擦力矩的作用。载荷比会影响形成轴承摩擦力矩最小的套圈变形相位角,其对套圈两瓣波相位角变化的影响小于三瓣波变形。合理控制套圈变形半振幅可降低对轴承摩擦力矩波动性的影响。
Targeting the unclear mechanism of the frictional torque variation induced by the ring deformation in the process of manufacturing and installation of the thin-wall angular contact ball bearings,based on the dynamic theory of rolling bearing,the dynamic analysis model and friction torque mathematical model of thin-wall angular contact ball bearing were established considering the timevarying representation of the ring deformation,and the effects of the ring groove curvature radius,the deformation phase angle,the half amplitude,and the working conditions on the frictional characteristics were studied.The results indicated that:the influence of the groove radius of curvature coefficient on the frictional torque changed at different speed critical values,which preacted or lagged compared with the ideal ring when considering the ring deformation.Optimal configuration of deformation phase angle of the ring can reduce the effect of the deformation on the frictional torque.The load ratio affected the deformation phase angle of the ring forming the minimum frictional torque,whose effect on the phase angle of two-lobe wave was less than that of three-lobe wave deformation.A reasonable control of half amplitude of ring deformation can reduce the influence of frictional torque fluctuation.
作者
崔永存
王一铭
邓四二
平静艳
李晌
CUI Yongcun;WANG Yiming;DENG Sier;PING Jingyan;LI Shang(School of Mechatronics Engineering,Henan University of Science and Technology,Luoyang Henan 471003,China;Post-Doctoral Workstation,Bahuan Technology Group Company,Limited,Taizhou Zhejiang 318000,China)
出处
《航空动力学报》
EI
CAS
CSCD
北大核心
2023年第4期964-975,共12页
Journal of Aerospace Power
基金
国家自然科学基金(52005158)
山东省重点研发计划(2020CXGC011003)。
关键词
套圈变形
薄壁角接触球轴承
轴承动力学
摩擦特性
变形相位角
变形半幅值
ring deformation
thin-wall angular contact ball bearing
rolling bearing dynamics
frictional characteristics
deformation phase angle
half amplitude of deformation
