An atomistic finite element method (AFEM) was applied to determine elastic properties of graphene... more An atomistic finite element method (AFEM) was applied to determine elastic properties of graphene and boron nitride (BN) monolayer sheets. Using the same force field parameters, deviations between results obtained by AFEM and those by molecular dynamics simulations appear within 5 % for Young's and shear moduli. By comparing simulation results with available data in the literature for these 2 sheets, it may be concluded that the proposed AFEM is a simple and fast technique to analyze accurately elastic properties of nanostructured materials.
An atomistic finite element method (AFEM) was applied to determine elastic properties of graphene... more An atomistic finite element method (AFEM) was applied to determine elastic properties of graphene and boron nitride (BN) monolayer sheets. Using the same force field parameters, deviations between results obtained by AFEM and those by molecular dynamics simulations appear within 5 % for Young's and shear moduli. By comparing simulation results with available data in the literature for these 2 sheets, it may be concluded that the proposed AFEM is a simple and fast technique to analyze accurately elastic properties of nanostructured materials.
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