Ries M, Steinmann P, Pfaller S (2019)
Publication Type: Journal article
Publication year: 2019
Book Volume: 19
Issue: 1
Polymer nanocomposites exhibit highly promising material properties caused by their molecular structure. Multiscale techniques are used to gain a deeper understanding of the influence of molecular mechanisms on the macro scale. Especially domain composition coupling approaches, e.g. the Capriccio method [1], require a precise match of the constitutive models of the coupled domains. To this end, in this contribution a methodology to characterize the material behavior of polymers using the widely used Molecular Dynamics approach is presented. Exemplary, polystyrene is investigated as a model system and the results of time proportional and time periodic uniaxial deformation tests as well as relaxation and creep tests are briefly discussed.
APA:
Ries, M., Steinmann, P., & Pfaller, S. (2019). Investigation of the Mechanical Behavior of Polystyrene using Molecular Dynamics. Proceedings in Applied Mathematics and Mechanics, 19. https://doi.org/10.1002/pamm.201900015
MLA:
Ries, Maximilian, Paul Steinmann, and Sebastian Pfaller. "Investigation of the Mechanical Behavior of Polystyrene using Molecular Dynamics." Proceedings in Applied Mathematics and Mechanics 19 (2019).
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