A damping boundary condition for coupled atomistic–continuum simulations |
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Authors: | A Sadeghirad A Tabarraei |
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Affiliation: | 1. Department of Mechanical Engineering, University of Utah, Salt Lake City, UT, USA 2. Department of Mechanical Engineering, University of North Carolina at Charlotte, Charlotte, NC, 28223-0001, USA
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Abstract: | Many atomistic–continuum coupling techniques employ an overlapping subdomain to suppress spurious wave reflections. In this paper, we propose the imposition of a new damping condition on the overlapping subdomain to enhance the capability of such methods in eliminating spurious wave reflections. In this technique, the total displacements of the atoms in the overlapping subdomain are decomposed into fine and coarse scales. The fine scale displacements represent the oscillations which cannot be resolved by the continuum mesh and must be eliminated to avoid the artificial reflections. This is achieved by modifying the equations of motion of the fine scale displacements to include a damping term. The flexibility of the proposed technique is verified by applying it to the bridging scale method and bridging domain method. Numerical simulations of one- and two-dimensional problems demonstrate the effectiveness of the technique in enhancing the elimination of the spurious wave reflections in coupled atomistic–continuum techniques. |
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