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International Journal for Multiscale Computational Engineering

年間 6 号発行

ISSN 印刷: 1543-1649

ISSN オンライン: 1940-4352

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THERMAL EXPANSION BEHAVIOR OF Al AND Ta USING AFINITE-TEMPERATURE EXTENSION OF THE QUASICONTINUUM METHOD

巻 10, 発行 1, 2012, pp. 1-11
DOI: 10.1615/IntJMultCompEng.2011002122
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Gabriela Venturini
Caltech
Jaime Marian
Chemistry, Materials, and Life Sciences Directorate, Lawrence Livermore National Laboratory, Livermore, CA 94551, USA
Jaroslaw Knap
Chemistry, Materials, and Life Sciences Directorate, Lawrence Livermore National Laboratory, Livermore, CA 94551, USA
G. Campbell
Lawrence Livermore National Laboratory
Michael Ortiz
California Institute of Technology

要約

Numerical methods that bridge the atomistic andcontinuum scales concurrently have been applied successfully to anumber of materials science problems involving both nonlinear andlong-range deformation fields. However, extension of thesemethods to finite temperature, nonequilibrium dynamics isdifficult due to the intrinsic incoherency between moleculardynamics and continuum thermodynamics, which possess differentcrystal vibrational spectra and therefore result in unphysicalwave reflections across domain boundaries. Here we review ourrecent finite temperature extension of the three-dimensional,non-local quasicontinuum (QC) method based on Langevin dynamicsand carry out an analysis of the systematic errors associated withthe entropic depletion that results from the QC reduction. Weapply the method to Al and Ta structured meshes ranging fromatomistic resolution to minimum-node representations using thethermal expansion coefficient as the standard metric. We findthat, while Al errors scale linearly with the number of meshnodes, Ta displays a very erratic behavior that degrades rapidlywith mesh coarsening.

キーワード: multiscale modeling, finite temperature, thermalexpansion, Langevin equation
参考

  1. Authier, A., International Tables for Crystallography.

  2. Biswas, R. and Hamann, D. R., Simulated annealing of silicon atom clusters in langevin molecular-dynamics. DOI: 10.1103/PhysRevB.34.895

  3. Curtin,W. A. and Miller, R. E., Atomistic/continuum coupling in computational materials science. DOI: 10.1088/0965-0393/11/3/201

  4. Diethelm, K., Ford, N. J., Freed, A. D., and Luchko, Y., Algorithms for the fractional calculus: A selection of numerical methods. DOI: 10.1016/j.cma.2004.06.006

  5. Ercolessi, F. and Adams, J. B., Interatomic potentials from 1st-principles calculations–the force matching method. DOI: 10.1209/0295-5075/26/8/005

  6. Grimvall, G., Thermophysical Properties of Materials.

  7. Hughes, T. J. R., The Finite Element Method.

  8. Knap, J. and Ortiz, M., An analysis of the quasicontinuum method. DOI: 10.1016/S0022-5096(01)00034-5

  9. Li, Y., Siegel, D. J., Adams, J. B., and Liu, X.-Y., Embedded-atom-method tantalum potential developed by the force-matching method. DOI: 10.1103/PhysRevB.67.125101

  10. MacDonald, R. A. and Shukla, R. C., Thermodynamic properties of bcc crystals at high temperatures–the transition metals. DOI: 10.1103/PhysRevB.32.4961

  11. Marian, J., Venturini, G., Hansen, B. L., Knap, J., Ortiz, M., and Campbell, G. H., Finite-temperature extension of the quasicontinuum method using langevin dynamics: entropy losses and analysis of errors. DOI: 10.1088/0965-0393/18/1/015003

  12. Miller, R. E. and Tadmor, E. B., A unified framework and performance benchmark of fourteen multiscale atomistic/continuum coupling methods. DOI: 10.1088/0965-0393/17/5/053001

  13. Qu, S., Shastry, V., Curtin, W. A., and Miller, R. E., A finite-temperature dynamic coupled atomistic/discrete dislocation method. DOI: 10.1088/0965-0393/13/7/007

  14. Szeftel, J., Surface phonon-dispersion, using electron energy loss spectroscopy. DOI: 10.1016/0039-6028(85)90490-X

  15. Tadmor, E. B., Ortiz, M., and Phillips, R., Quasicontinuum analysis of defects in solids. DOI: 10.1080/01418619608243000

  16. Touloukian, Y. S., Kirby, R. K., Taylor, R. E., and Lee, T. Y. R., Thermophysical Properties of Matter.

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