Springe zum Hauptinhalt
Universitätsbibliothek
Universitätsbibliographie

Ergebnis der Datenbankabfrage

Nr. Titel Autor Jahr
1 Experimental and numerical analysis of cord-elastomer composites Weiser, Stephan* et al. 2021
2 On Constitutive Modelling at Large Strains Based on Rheological Connections Landgraf, Ralf* et al. 2021
3 A modeling approach for fibre yarns and its application in air spring FE analyses Heinrich, Nina* et al. 2018
4 An Eulerian framework for rheological models based on the decomposition of the deformation rate Ihlemann, Jörn* et al. 2018
5 Evaluation of air spring textile reinforcement by means of resolving the cord structure in FE analyses Heinrich, Nina* et al. 2018
6 Finite Element Models for textile reinforced Rubber Components Heinrich, Nina* et al. 2018
7 An objective eulerian framework for rheological models at large strains Donner, Hendrik et al. 2017
8 Efficiency of rubber material modelling and characterisation Donner, Hendrik et al. 2017
9 FE analysis of hybrid cord rubber composites Donner, Hendrik et al. 2017
10 FEM-basierte Modellierung stark anisotroper Hybridcord-Elastomer-Verbunde Donner, Hendrik 2017
11 A numerical framework for rheological models based on the decomposition of the deformation rate tensor Donner, Hendrik* et al. 2016
12 FE analysis of hybrid cord-rubber composites Donner, Hendrik et al. 2016
13 Volumetric finite element models for textile reinforced rubber components Heinrich, Nina et al. 2016
14 Evaluation of hyperelastic models for unidirectional short fibre reinforced materials using a representative volume element with refined boundary conditions Goldberg, Niels* et al. 2015
15 An anisotropic large strain plasticity model for multifilament yarns Donner, Hendrik et al. 2014
16 FE simulation of twisted polymer cords using an aniso-tropic large strain plasticity model Donner, Hendrik et al. 2014
17 On the efficient finite element modelling of cord-rubber composites Donner, Hendrik et al. 2013
Aktuelle Seite:
Anzahl der Ergebnisseiten: 1
Anzahl der Dokumente: 17

Soziale Medien

Verbinde dich mit uns: