Microscopic dynamic observation of adhesion hysteresis friction and exploration of the influence of different pressures on friction transmission 被引量：2

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摘要 The mechanism of adhesive friction between viscoelastic materials is a key question.In this study,the friction process of the adhesive interface between a friction lining and a wire rope is dynamically observed in real time to analyze the adhesion hysteresis friction intuitively and quantitatively.The adhesion is determined by the state of motion,while the relative displacement of the wire rope and lining is used to find the magnitude of the adhesive friction.The hysteresis friction is reflected by the internal deformation of the lining.The magnitude of the hysteresis friction is determined by the displacement difference(Ax)in the sliding direction of two marked points at different distances from the contact surface.The results show that the adhesion friction is proportional to the loss modulus and the hysteresis friction is proportional to the ratio of the loss modulus to the square of the storage modulus(E"/(E'^(2))).The frictional vibration first decreases and then increases with the increase in pressure.The K25 lining has the highest adhesion hysteresis friction and minimal frictional vibration.The result provides a simple and intuitive method for research into the friction transmission and vibration of viscoelastic materials.

作者 Cun-ao FENG De-kun ZHANG Kai CHEN

机构地区 School of Mechatronic Engineering Department of Mechanical Engineering University of British Columbia School of Materials Science and Engineering China University of Mining and Technology

出处《Friction》 SCIE EI CAS CSCD 2021年第4期758-773,共16页 摩擦（英文版）

基金 supported by the joint Ph.D.program of"double first rate"construction disciplines of China University of Mining and Technology(CUMT).

关键词 adhesion hysteresis friction VISCOELASTICITY frictional vibration dynamic monitoring

分类号 TD534.3 [矿业工程—矿山机电]

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