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Dłużewski P., Maździarz M., Traczykowski P.♦, Jurczak G., Niihara K.♦, Nowak R.♦, Kurzydłowski K.♦, A hybrid atomistic-continuum finite element modelling of nanoindentation and experimental verification for copper crystal,
COMPUTER ASSISTED METHODS IN ENGINEERING AND SCIENCE, ISSN: 2299-3649, Vol.15, pp.37-44, 2008Streszczenie: Problem of locally disordered atomic structure is solved by using a hybrid formulation in which nonlinear elastic finite elements are linked with discrete atomic interaction elements. The continuum approach uses nonlinear hyperelasticity based upon the generalized strain while the atomistic approach employs the Tight-Binding Second-Moment Approximation potential to create new type of elements. The molecular interactions yielding from constitutive models of TB-SMA were turned into interactions between nodes to solve a boundary value problem by means of finite element solver.
In this paper we present a novel way of modelling materials behaviour where both discrete (molecular dynamics) and continuum (nonlinear finite element) methods are used. As an example, the nanoindentation of a copper sample is modelled numerically by applying a hybrid formulation. Here, the central area of the sample subject to a nanoindentation operation is discretised by an atomic net where the remaining area of the sample far from indenters tip is discretised by the use of a nonlinear finite element mesh. Słowa kluczowe: Nanostructure, Nanoindentation, Molecular statics, Finite element modelling Afiliacje autorów:
Dłużewski P. | - | IPPT PAN | Maździarz M. | - | IPPT PAN | Traczykowski P. | - | Institute of Plasma Physics and Laser Microfusion (PL) | Jurczak G. | - | IPPT PAN | Niihara K. | - | Nagaoka University of Technology (JP) | Nowak R. | - | Foundry Research Institute (PL) | Kurzydłowski K. | - | Politechnika Warszawska (PL) |
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