Springe zum Hauptinhalt
Universitätsbibliothek
Universitätsbibliographie

Ergebnis der Datenbankabfrage

Nr. Titel Autor Jahr
1 A new specimen setup for high precision uniaxial tension-compression tests of rubber Kanzenbach, Lars et al. 2017
2 Chemisch-mechanisch gekoppelte Modellierung und Simulation oxidativer Alterungsvorgänge in Gummibauteilen Naumann, Christoph 2017
3 Efficiency of rubber material modelling and characterisation Donner, Hendrik et al. 2017
4 Simulation of oxidative aging processes in elastomer components using a dynamic network model Schlomka, Clemens et al. 2017
5 Degree of Cure Definition for an Epoxy Resin Based on Thermal Diffusivity Measurements Rudolph, Martin* et al. 2016
6 Sample geometry design for high precision uniaxial tension-compression tests Kanzenbach, Lars et al. 2016
7 Specimen design for high precision tension-compression tests Kanzenbach, Lars* et al. 2016
8 A dynamic network model to simulate chemical aging processes in elastomers Naumann, Christoph et al. 2015
9 Degree of cure definition for an epoxy resin based on thermal diffusivity measuremnts Naumann, Christoph et al. 2015
10 On the thermodynamics of pseudo-elastic material models which reproduce the Mullins effect Naumann, Christoph* et al. 2015
11 On the Thermodynamics of Viscoelastic Models of Convolution Type at Large Deformations Naumann, Christoph* et al. 2015
12 A pseudo-elastic material model to reproduce the Mullins-effect in ageing Elastomers Naumann, Christoph et al. 2014
13 Extended MORPH model for application-oriented simulation of inelastic large strain rubber behavior Naumann, Christoph et al. 2014
14 Simulation of oxidative ageing processes in elastomeric components Naumann, Christoph et al. 2014
15 Chemomechanically coupled finite element simulations of oxidative ageing in elastomeric components Naumann, Christoph et al. 2013
16 Thermomechanical material behaviour within the concept of representative directions Naumann, Christoph et al. 2012
Aktuelle Seite:
Anzahl der Ergebnisseiten: 1
Anzahl der Dokumente: 16

Soziale Medien

Verbinde dich mit uns: