微动条件下材料磨损率的一种计算分析方法  被引量：2

作　　者：杨晓丽 王斌容 胡海云[1] Yang Xiao-Li;Wang Bin-Rong;Hu Hai-Yun(School of Physics,Beijing Institute of Technology,Beijing 100081,China)

机构地区：[1]北京理工大学物理学院,北京100081

出　　处：《物理学报》2018年第18期21-29,共9页Acta Physica Sinica

基　　金：国家自然科学基金(批准号:11272053)资助的课题~~

摘　　要：微动现象广泛存在于工程结构中,近年来越来越受到科研工作者的重视.为了对微动磨损进行深入研究,本文根据微动摩擦系统中摩擦副间的特点,针对微动磨损过程,提出不对称双势阱模型,建立了其中粒子的运动方程;利用非平衡统计思想建立了理论模型,得到了计算磨损率的新方法.以金属材料Mg和Fe组成的摩擦副系统为例进行了计算分析,得出磨损率随磨损时间和势阱宽度的变化,进一步分析了载荷正压力变化对磨损率的影响.计算分析结果表明,在其他条件均不变的情况下,材料磨损率随磨损时间的增大而减小,且随着摩擦副系统中势阱宽度和载荷正压力的减小,磨损率也呈减小趋势.最后,通过与试验结果比较,验证了该理论模型的适用性.Fretting phenomena exist widely in structural engineering. In recent years, it has attracted more attention from scientists and technicians. In order to study the fretting wear in depth, we establish a new method of calculating the wear rate of material in vibratory environment. Firstly, according to the characteristics of friction pair and fretting wear process in fretting friction system, the asymmetric double potential well model is proposed and the potential energy function of the model is given. The transfer of particles between the two kinds of materials during the fretting is regarded as the motion of the particles in the two potential wells which are asymmetrical, and the particle motion equation in the potential well is established. Furthermore, considering the characteristics of the randomness, time-varying and irreversibility of particle motion in fretting friction system, a theoretical model is established by using the non-equilibrium statistical theory, which is based on the particle equation motion, combined with the Langevin equation in random theory and the Foker-Planck equation in the non-equilibrium statistical theory. The probability density distribution function of particles moving from the interior of the material to the material surface at any time is obtained. A method of calculating the wear rate is proposed by integrating the probability density distribution function. Secondly, by calculating the wear rate of the friction pair which consists of metal materials Mg and Fe, we obtain the potential energy function of the asymmetric double potential well model as the different surface energies of both materials. Furthermore, the probability density distribution function of particles moving in this friction pair is calculated. Then, the change of wear rate with wear time and width of potential well is derived, and the effect of normal force on wear rate is further analyzed. The results of calculation and analysis show that the wear rate of material decreases with the decrease of the width of th

关 键 词：微动磨损 不对称势阱 非平衡统计理论 磨损率 

分 类 号：O313.5[理学—一般力学与力学基础]