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Archive of Applied Mechanics

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27.11.2017 | Original

Influence of contact stiffness of joint surfaces on oscillation system based on the fractal theory

verfasst von: Wujiu Pan, Xiaopeng Li, Linlin Wang, Na Guo, Zemin Yang

Erschienen in: Archive of Applied Mechanics | Ausgabe 4/2018

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Abstract

In this paper, in view of microscopic surface topography characteristic, the relationship of microscopic surface topography characteristic and the dynamic characteristic of macroscopic system is established, and the influence of fractal contact stiffness on the stability and nonlinearity of modal coupling system is studied based on microscopic surface topography. According to the fractal characteristic of metal surface machined, the normal and tangential contact stiffness fractal models of joint surfaces are established and verified. In this paper, a critical two-degree-of-freedom modal coupling model is listed, the fractal contact stiffness obtained is embedded into oscillatory differential equation to study the influence of the coupling between friction coefficient and stiffness ratio of joint surfaces and the coupling between natural frequency and stiffness ratio of joint surfaces on the system stability, and the influence of fractal contact stiffness on the limit cycle of system is further analyzed. The above theoretical analysis can provide a reference for the design of suitable surface topography in the engineering.

Vorheriger Artikel Coupled inverted pendulums: stabilization problem

Nächster Artikel Thermal post-buckling and vibration analysis of a symmetric sandwich beam with clamped and simply supported boundary conditions

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Titel: Influence of contact stiffness of joint surfaces on oscillation system based on the fractal theory
verfasst von: Wujiu Pan
Xiaopeng Li
Linlin Wang
Na Guo
Zemin Yang
Publikationsdatum: 27.11.2017
Verlag: Springer Berlin Heidelberg
Erschienen in: Archive of Applied Mechanics / Ausgabe 4/2018
Print ISSN: 0939-1533
Elektronische ISSN: 1432-0681
DOI: https://doi.org/10.1007/s00419-017-1325-y

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