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Fizika Tverdogo Tela, 2014 Volume 56, Issue 10, Pages 1946–1952 (Mi ftt12159)

This article is cited in 30 papers

Mechanical properties, strength physics and plasticity

Mechanical properties of bulk carbon nanomaterials

Yu. A. Baimovaa, R. T. Murzaeva, S. V. Dmitrievab

a Institute for Metals Superplasticity Problems of RAS, Ufa
b Peter the Great St. Petersburg Polytechnic University

Abstract: Bulk carbon nanomaterials, which open prospects for the development of a new generation of supercapacitors, are actively investigated for recent years, but their mechanical properties and structure remain poorly understood. In connection with this fact, the influence of the hydrostatic and uniaxial compression on mechanical properties and structure of three bulk nanomaterials consisting of (i) bent graphene flakes, (ii) short carbon nanotubes, and (iii) fullerenes C$_{240}$ are investigated by the molecular dynamics method. It is shown that the strength of the material and its stability to graphitization depend on its constituent structural units. At large degrees of deformation, the material consisting of bent graphene sheets has the highest strength, whereas at the material density lower than 2.5 g/cm$^3$, the highest strength is observed in the nanomaterial consisting of fullerene molecules. The differences in mechanical properties of the materials under consideration are explained by their structural features.

Received: 21.02.2014
Accepted: 10.04.2014


 English version:
Physics of the Solid State, 2014, 56:10, 2010–2016

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