Abstract
This article discusses the peculiarities of self-organization behavior and formation of dissipative structures during friction of antifriction alloys for slide bearings against a steel counterbody. It shows that during self-organization, the moment of friction in a tribosystem may be decreasing with the load growth and in the bifurcations of the coefficient of friction with respect to load. Self-organization and the formation of dissipative structures lead to an increase in the seizure load.
Highlights
Each system and regime of friction has its own specific features, which depend on both the application and the purpose of the friction system
Stabilization of the parameters of friction at the running-in stage is accompanied by the formation and stabilization of these secondary structures
When displaced from equilibrium, the system may lose the state of thermodynamic stability. This may be accompanied by self-organization and formation of dissipative structures, leading to a spontaneous onset of steady non-equilibrium processes
Summary
Each system and regime of friction has its own specific features, which depend on both the application and the purpose of the friction system. This may be accompanied by self-organization and formation of dissipative structures, leading to a spontaneous onset of steady non-equilibrium processes. As an example of the reduction of the friction coefficient as load is increased during self-organization, this article focuses on the formation of dissipative structures in anti-friction alloys for slide bearings.
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