Mechanisms of elastic energy dissipation in the transition layer between a coating and a substrate under contact interaction

Abstract

A theoretical and experimental analysis of the influence of the dispersed transition layer between a coating and a substrate on the development of deformation structures near the interface has been performed as part of an interdisciplinary study of the deformation and fracture of coating-substrate compositions under contact interaction. Elastic energy transfer from an indenter was simulated using excitable cellular automata taking into account the self-organization of translations and rotations of the structure near the interface. The effect of the transition layer between the coating and the substrate on the development of deformation structures during contact interaction with the indenter in three-point bending was studied experimentally using a TOMSC television-optical measuring complex.

Original language	English
Pages (from-to)	318-326
Number of pages	9
Journal	Journal of Applied Mechanics and Technical Physics
Volume	55
Issue number	2
DOIs	https://doi.org/10.1134/S002189441402014X
Publication status	Published - 2014

Keywords

cellular automata
contact interaction
discrete simulation
interface
materials with coatings

ASJC Scopus subject areas

Mechanical Engineering
Mechanics of Materials
Condensed Matter Physics

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10.1134/S002189441402014X

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Panin, V. E., Moiseenko, D. D., Panin, S. V., Maksimov, P. V., Goryacheva, I. G., & Cheng, C. H. (2014). Mechanisms of elastic energy dissipation in the transition layer between a coating and a substrate under contact interaction. Journal of Applied Mechanics and Technical Physics, 55(2), 318-326. https://doi.org/10.1134/S002189441402014X

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abstract = "A theoretical and experimental analysis of the influence of the dispersed transition layer between a coating and a substrate on the development of deformation structures near the interface has been performed as part of an interdisciplinary study of the deformation and fracture of coating-substrate compositions under contact interaction. Elastic energy transfer from an indenter was simulated using excitable cellular automata taking into account the self-organization of translations and rotations of the structure near the interface. The effect of the transition layer between the coating and the substrate on the development of deformation structures during contact interaction with the indenter in three-point bending was studied experimentally using a TOMSC television-optical measuring complex.",

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author = "Panin, {V. E.} and Moiseenko, {D. D.} and Panin, {S. V.} and Maksimov, {P. V.} and Goryacheva, {I. G.} and Cheng, {C. H.}",

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AU - Panin, V. E.

AU - Moiseenko, D. D.

AU - Panin, S. V.

AU - Maksimov, P. V.

AU - Goryacheva, I. G.

AU - Cheng, C. H.

PY - 2014

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AB - A theoretical and experimental analysis of the influence of the dispersed transition layer between a coating and a substrate on the development of deformation structures near the interface has been performed as part of an interdisciplinary study of the deformation and fracture of coating-substrate compositions under contact interaction. Elastic energy transfer from an indenter was simulated using excitable cellular automata taking into account the self-organization of translations and rotations of the structure near the interface. The effect of the transition layer between the coating and the substrate on the development of deformation structures during contact interaction with the indenter in three-point bending was studied experimentally using a TOMSC television-optical measuring complex.

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KW - contact interaction

KW - discrete simulation

KW - interface

KW - materials with coatings

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