Micromechanics of plastic deformation through grain-boundary migration in metal–graphene nanocomposites

S. V. Bobylev; N. F. Morozov; I. A. Ovid’ko

doi:10.1134/S1028335817030016

Micromechanics of plastic deformation through grain-boundary migration in metal–graphene nanocomposites

Authors: Bobylev S.V.¹^,2^,3, Morozov N.F.¹^,2^,3, Ovid’ko I.A.¹^,2^,3
Affiliations:
1. Peter the Great St. Petersburg Polytechnic University
2. St. Petersburg State University
3. Institute for Problems of Mechanical Engineering
Issue: Vol 62, No 3 (2017)
Pages: 124-127
Section: Mechanics
URL: https://journals.rcsi.science/1028-3358/article/view/192194
DOI: https://doi.org/10.1134/S1028335817030016
ID: 192194

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Abstract

A theoretical description of the plastic deformation of metal–graphene nanocomposites through stress-induced migration of grain boundaries is proposed. Within the micromechanical approach developed, the plastic deformation induced by this migration leads to the formation of disclination quadrupoles (intense elastic stress sources). The energy characteristics and critical stress are calculated for the plastic deformation mode under consideration. The influence of graphene nanoinclusions is shown to cause significant hardening of metal–graphene nanocomposites. This conclusion is consistent with the corresponding experimental data.

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Micromechanics of plastic deformation through grain-boundary migration in metal–graphene nanocomposites

Full Text

Abstract

About the authors

S. V. Bobylev

N. F. Morozov

I. A. Ovid’ko

Supplementary files