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Institute for Problems in Mechanical Engineering
of the Russian Academy of Sciences

Institute for Problems in Mechanical Engineering of the Russian Academy of Sciences

E-Green's function molecular dynamics method for contact mechanics with a viscoelastic layer

Autors:
V.G. Petrenko, I.U. Solovyov, E.V. Antonov, L.M. Dorogin, Y. Murugesan ,
Pages:
060-068
Annotation:

Advanced technological and engineering solutions involve usage of complex tribological systems. There is a demand for precise and computationally efficient methods to describe such systems. The aim of this study is to develop a computationally efficient method to solve the problem of deformation of a two-layer system using the Green's function molecular dynamics (GFMD) technique. We consider a viscoelastic layer attached to an elastic halfspace and derive a constitutive equation in Fourier space from the corresponding elastic solution. This third-order equation is numerically integrated by the backward Euler method, and a quasi-static solution is found through the fast inertial relaxation engine (FIRE) optimization algorithm. The method is illustrated with a simple model of indentation by a rigid cylinder. Using this method, contact area and pressure were calculated as a function of time for various shear modulus values.

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