TY  - JOUR
U1  - Zeitschriftenartikel, wissenschaftlich - begutachtet (reviewed)
A1  - Nasdala, Lutz
A1  - Kempe, Andreas
A1  - Rolfes, Raimund
T1  - An elastic molecular model for rubber inelasticity
JF  - Computational Materials Science
N2  - Rubber materials are characterized by a variety of inelasticities such as softening behavior, hysteresis loops and permanent set. In order to calculate the inelastic material behavior, constitutive models, that describe rubber as a homogeneous continuum, have to make use of damping or friction elements.

On the nanoscale, there is no need to adopt such rheological models. Inelastic material behavior can be explained and simulated by a continuous rearrangement of bonds, in particular, the van der Waals interactions, and by the polymer chains transitioning between cis and trans equilibrium torsion angles. The discrete molecular dynamics simulations presented in this paper are performed in an explicit FEM environment using nonlinear but elastic force field potentials. From a structural mechanics point of view, topological changes of the polymer network can be interpreted as a sequence of local material instability problems due to negative tangential bond stiffnesses.

In order to obtain representative results within reasonable computational time, the model is optimized with respect to the number of atoms and the loading velocity. It is shown that by increasing the model size, the stress–strain curves become independent of both the atoms initial state and the strain amplitudes.
KW  - Gummi
KW  - Elastizität
Y1  - 2015
U6  - https://doi.org/10.1016/j.commatsci.2015.04.036
DO  - https://doi.org/10.1016/j.commatsci.2015.04.036
VL  - 106
SP  - 83
EP  - 99
PB  - Elsevier
ER  -