Bearing friction dynamics response analysis method integrating quasi-statics and dynamics

The invention discloses a bearing friction dynamics response analysis method integrating quasi-statics and dynamics, and belongs to the field of mechanical engineering technology friction dynamics. According to the reference coordinate system, establishing a quasi-statics equilibrium equation and a...

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Hauptverfasser:	ZHANG MINGQUAN, YAN YANG, ZHU YUANHANG, YIN JIANSHU, CHEN ZHENYI, ZHAO YUHAO
Format:	Patent
Sprache:	chi ; eng
Schlagworte:	CALCULATING COMPUTING COUNTING ELECTRIC DIGITAL DATA PROCESSING PHYSICS
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creator	ZHANG MINGQUAN YAN YANG ZHU YUANHANG YIN JIANSHU CHEN ZHENYI ZHAO YUHAO
description	The invention discloses a bearing friction dynamics response analysis method integrating quasi-statics and dynamics, and belongs to the field of mechanical engineering technology friction dynamics. According to the reference coordinate system, establishing a quasi-statics equilibrium equation and a dynamic differential equation with consistent displacement variables of the solid lubrication ball bearing; according to the relation between the contact angle and the contact parameter, friction force and friction torque in a quasi-statics equilibrium equation are obtained through calculation; according to the friction force and the friction torque, the quasi-statics equilibrium equation is solved, a steady-state analysis result is obtained, the steady-state analysis result serves as an initial value of a dynamic differential equation, the dynamic differential equation is solved, and the friction dynamic response of the bearing is obtained. According to the method, the tribological and dynamic characteristics of t
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According to the reference coordinate system, establishing a quasi-statics equilibrium equation and a dynamic differential equation with consistent displacement variables of the solid lubrication ball bearing; according to the relation between the contact angle and the contact parameter, friction force and friction torque in a quasi-statics equilibrium equation are obtained through calculation; according to the friction force and the friction torque, the quasi-statics equilibrium equation is solved, a steady-state analysis result is obtained, the steady-state analysis result serves as an initial value of a dynamic differential equation, the dynamic differential equation is solved, and the friction dynamic response of the bearing is obtained. 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According to the reference coordinate system, establishing a quasi-statics equilibrium equation and a dynamic differential equation with consistent displacement variables of the solid lubrication ball bearing; according to the relation between the contact angle and the contact parameter, friction force and friction torque in a quasi-statics equilibrium equation are obtained through calculation; according to the friction force and the friction torque, the quasi-statics equilibrium equation is solved, a steady-state analysis result is obtained, the steady-state analysis result serves as an initial value of a dynamic differential equation, the dynamic differential equation is solved, and the friction dynamic response of the bearing is obtained. 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According to the reference coordinate system, establishing a quasi-statics equilibrium equation and a dynamic differential equation with consistent displacement variables of the solid lubrication ball bearing; according to the relation between the contact angle and the contact parameter, friction force and friction torque in a quasi-statics equilibrium equation are obtained through calculation; according to the friction force and the friction torque, the quasi-statics equilibrium equation is solved, a steady-state analysis result is obtained, the steady-state analysis result serves as an initial value of a dynamic differential equation, the dynamic differential equation is solved, and the friction dynamic response of the bearing is obtained. According to the method, the tribological and dynamic characteristics of t</abstract><oa>free_for_read</oa></addata></record>
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title	Bearing friction dynamics response analysis method integrating quasi-statics and dynamics
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