000015371 001__ 15371
000015371 005__ 20161115100219.0
000015371 04107 $$aeng
000015371 046__ $$k2016-08-21
000015371 100__ $$aLinder, Christian
000015371 24500 $$aA micromechanical model for strain-induced crystallization in rubber

000015371 24630 $$n24.$$p24th International Congress of Theoretical and Applied Mechanics - Book of Papers
000015371 260__ $$bInternational Union of Theoretical and Applied Mechanics, 2016
000015371 506__ $$arestricted
000015371 520__ $$2eng$$aA micromechanical model for strain-induced crystallization in rubber-like materials is proposed. Combining the evolution of the crystallization of a single polymer chain with the maximal advance path based homogenization method, we are able to predict this complex process. The crystallization of the material leads to an anisotropic mechanical response, which our model is able to capture. The representative numerical simulation results are in good quantitative agreement to experimental data for both, uniaxial extension and three-dimensional multiaxial simulations of strain induced crystallization around a cracked region.

000015371 540__ $$aText je chráněný podle autorského zákona č. 121/2000 Sb.
000015371 653__ $$a

000015371 7112_ $$a24th International Congress of Theoretical and Applied Mechanics$$cMontreal (CA)$$d2016-08-21 / 2016-08-26$$gICTAM2016
000015371 720__ $$aLinder, Christian
000015371 8560_ $$ffischerc@itam.cas.cz
000015371 8564_ $$s103139$$uhttps://invenio.itam.cas.cz/record/15371/files/TS.SM10-6.04.pdf$$yOriginal version of the author's contribution as presented on CD,  page 2526, code TS.SM10-6.04
.
000015371 962__ $$r13812
000015371 980__ $$aPAPER