@ARTICLE{Dörlich_Vanessa_Towards_2016, author={Dörlich, Vanessa and Linn, Joachim and Scheffer, Tobias and Diebels, Stefan}, volume={vol. 63}, number={No 2}, journal={Archive of Mechanical Engineering}, pages={215-230}, howpublished={online}, year={2016}, publisher={Polish Academy of Sciences, Committee on Machine Building}, abstract={Flexible, slender structures like cables, hoses or wires can be described by the geometrically exact Cosserat rod theory. Due to their complex multilayer structure, consisting of various materials, viscoplastic behavior has to be expected for cables under load. Classical experiments like uniaxial tension, torsion or three-point bending already show that the behavior of e.g. electric cables is viscoplastic. A suitable constitutive law for the observed load case is crucial for a realistic simulation of the deformation of a component. Consequently, this contribution aims at a viscoplastic constitutive law formulated in the terms of sectional quantities of Cosserat rods. Since the loading of cables in applications is in most cases not represented by these mostly uniaxial classical experiments, but rather multiaxial, new experiments for cables have to be designed. They have to illustrate viscoplastic effects, enable access to (viscoplastic) material parameters and account for coupling effects between different deformation modes. This work focuses on the design of such experiments.}, type={Artykuły / Articles}, title={Towards viscoplastic constitutive models for Cosserat rods}, URL={http://journals.pan.pl/Content/85119/PDF/ame-2016-0012.pdf}, doi={10.1515/meceng-2016-0012}, keywords={Cosserat rods, viscoplasticity, multiaxial experiments, flexible structure, cables}, }