Three-dimensional movable cellular automata simulation of elastoplastic deformation and fracture of coatings in contact interaction with a rigid indenter View Full Text


Ontology type: schema:ScholarlyArticle     


Article Info

DATE

2014-10

AUTHORS

A. Yu. Smolin, G. M. Eremina, V. V. Sergeev, E. V. Shilko

ABSTRACT

The paper considers 3D movable cellular automata (MCA) models of contact interactions involved in nanoindentation, sclerometry, and tribospectroscopy. The system under study is a titanium substrate with a harden coating. The substrate and coating materials are both described in the elastoplastic approximation. It is shown that the MCA method of numerical simulation provides correct description of the contact interaction of elastoplastic materials under different types of loads with explicit account for fracture. The possibility to detect damages in ma surface layers from friction force estimates is assessed. More... »

PAGES

292-303

References to SciGraph publications

  • 2012-09. Structure and mechanical behavior during indentation of biocompatible nanostructured titanium alloys and coatings in METALLURGIST
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  • 2008-06. Specific features of the determination of the mechanical characteristics of thin films by the nanoindentation technique in PHYSICS OF THE SOLID STATE
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  • 1999. Computer Simulation of Dynamic Phenomena in NONE
  • 2002-07. Artificial neural network and finite element modeling of nanoindentation tests in METALLURGICAL AND MATERIALS TRANSACTIONS A
  • 2004-03. Peculiarities of the mechanical response of heterogeneous materials with highly deformable interfaces in TECHNICAL PHYSICS LETTERS
  • 2011-01. Multilayer nanostructured heat-generating coatings. Preparation and certification of mechanical and tribological properties in METALLURGIST
  • 2011-03. Sclerometric study of galvanic AuNi and AuCo coatings in TECHNICAL PHYSICS LETTERS
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