Liangyu Ling scite author profile

The contact damping between rough surfaces has an important influence on the wear, vibration, contact fatigue and energy dissipation between interfaces. In this paper, based on contact theory, a tangential damping mathematical model of rough surfaces is established from the point of view of viscous contact damping energy dissipation mechanism of asperities and considering the fractal characteristics of three-dimensional topography of rough surfaces. Through the combination of micro contact modeling and macro dynamic testing of composite beams, the analysis results show that there are important evolution rules between tangential damping and surface fractal parameters and material parameters. The nonlinear relations between them are as follows: tangential contact damping is positively correlated with normal load, load ratio and maximum contact area of asperity, and negatively correlated with fractal roughness; tangential contact damping increases first and then decreases with the increase of three-dimensional fractal dimension. The results of computational and experimental modal analysis show that the established mathematical model is feasible for predicting tangential damping. The study of tangential contact damping between surfaces can lay a foundation for improving the performance of assembly interfaces.

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Coupling dynamic behavior of aero-engine rotor system caused by rolling, pitching and yawing maneuver loads

Pan

Ling

et al. 2022

Applied Mathematical Modelling

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Analysis of complex modal instability of a minimal friction self-excited vibration system from multiscale fractal surface topography

Pan

Ling

et al. 2021

European Journal of Mechanics - A/Solids

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Dynamic modeling and response analysis of rub-impact rotor system with squeeze film damper under maneuvering load

Pan

Ling

et al. 2023

Applied Mathematical Modelling

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Liangyu Ling

Unloading contact mechanics analysis of elastic–plastic fractal surface

Investigation of Tangential Contact Damping of Rough Surfaces From the Perspective of Viscous Damping Mechanism

Coupling dynamic behavior of aero-engine rotor system caused by rolling, pitching and yawing maneuver loads

Analysis of complex modal instability of a minimal friction self-excited vibration system from multiscale fractal surface topography

Dynamic modeling and response analysis of rub-impact rotor system with squeeze film damper under maneuvering load

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