Multiscale Nonlinear Constitutive Modeling of Carbon Nanostructures Based on Interatomic Potentials

Multiscale Nonlinear Constitutive Modeling of Carbon Nanostructures Based on Interatomic Potentials

Continuum-based modeling of nanostructures is an efficient and suitable method to study the behavior of these structures when the deformation can be considered homogeneous. This paper is concerned about multiscale nonlinear tensorial constitutive modeling of carbon nanostructures based on the intera...

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Veröffentlicht in:Computers, materials & continua materials & continua, 2009, Vol.10 (1), p.41-64
Hauptverfasser: Ghanbari, J, Naghdabadi, R
Format: Artikel
Sprache:eng
Schlagworte:
Atomic structure
Carbon
Carbon nanotubes
Constitutive models
Elasticity
Graphene
Mathematical analysis
Mathematical models
Modelling
Nanostructure
Tensors
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Zusammenfassung:Continuum-based modeling of nanostructures is an efficient and suitable method to study the behavior of these structures when the deformation can be considered homogeneous. This paper is concerned about multiscale nonlinear tensorial constitutive modeling of carbon nanostructures based on the interatomic potentials. The proposed constitutive model is a tensorial equation relating the second Piola-Kirchhoff stress tensor to Green-Lagrange strain tensor. For carbon nanotubes, some modifications are made on the planar representative volume element (RVE) to account for the curved atomic structure resulting a non-planar RVE. Using the proposed constitutive model, the elastic behavior of the graphene sheet and carbon nanotube are studied.
ISSN:1546-2218
1546-2226
DOI:10.3970/cmc.2009.010.041