Jan Plagge
Title
Cited by
Cited by
Year
A physically based model of stress softening and hysteresis of filled rubber including rate-and temperature dependency
J Plagge, M Klüppel
International Journal of Plasticity 89, 173-196, 2017
312017
Investigation of strain-induced crystallization of carbon black and silica filled natural rubber composites based on mechanical and temperature measurements
T Spratte, J Plagge, M Wunde, M Klüppel
Polymer 115, 12-20, 2017
222017
A theory relating crystal size, mechanical response, and degree of crystallization in strained natural rubber
J Plagge, M Kluppel
Macromolecules 51 (10), 3711-3721, 2018
122018
Viscoelasticity of reversibly crosslinked networks of semiflexible polymers
J Plagge, A Fischer, C Heussinger
Physical Review E 93 (6), 062502, 2016
122016
Characterization and application of graphene nanoplatelets in elastomers
M Klüppel, MM Möwes, A Lang, J Plagge, M Wunde, F Fleck, CW Karl
Designing of Elastomer Nanocomposites: From Theory to Applications, 319-360, 2016
92016
Mullins effect revisited: Relaxation, recovery and high-strain damage
J Plagge, M Klüppel
Materials Today Communications 20, 100588, 2019
62019
Determining strain-induced crystallization of natural rubber composites by combined thermography and stress-strain measurements
J Plagge, M Klüppel
Polymer Testing 66, 87-93, 2018
62018
Melting a granular glass by cooling
J Plagge, C Heussinger
Physical review letters 110 (7), 078001, 2013
62013
Efficient modeling of inelastic effects in filled rubber using load dependent relaxation times
J Plagge, A Ricker, M Klüppel
Constitutive Models for Rubber XI: Proceedings of the 11th European …, 2019
32019
The role of stress softening in crack propagation of filler reinforced elastomers as evaluated by the J-Integral
M Wunde, J Plagge, M Klüppel
Engineering Fracture Mechanics 214, 520-533, 2019
32019
On the reinforcement of rubber by fillers and strain-induced crystallization
J Plagge
Gottfried Wilhelm Leibniz Universität Hannover, 2018
32018
A hyperelastic physically based model for filled elastomers including continuous damage effects and viscoelasticity
J Plagge, M Klüppel
Constitutive Models for Rubber X, 559-565, 2017
32017
Thermo-mechanical properties of strain-crystallizing elastomer nanocomposites
J Plagge, T Spratte, M Wunde, M Klüppel
Constitutive Models for Rubber X, 489-494, 2017
32017
Efficient modeling of filled rubber assuming stress-induced microscopic restructurization
J Plagge, A Ricker, NH Kröger, P Wriggers, M Klüppel
International Journal of Engineering Science 151, 103291, 2020
22020
Application of a micro-structure based model to thermally aged filler reinforced elastomer compounds
J Plagge, M Klüppel
Constitutive Models for Rubber IX 29, 2015
22015
Modeling the Full Time-Dependent Phenomenology of Filled Rubber for Use in Anti-Vibration Design
F Carleo, J Plagge, R Whear, J Busfield, M Klüppel
Polymers 12 (4), 841, 2020
12020
Investigation of carbon black and silica surface structure by static gas adsorption with various gases
J Plagge, M Klüppel
Rubber Chemistry and Technology 91 (2), 509-519, 2018
12018
Impact of stress softening on tearing energy of filled rubbers as evaluated by the J-Integral
M Wunde, J Plagge, M Klüppel
Constitutive Models for Rubber X, 301-305, 2017
12017
Micromechanics of Stress-Softening and Hysteresis of Filler Reinforced Elastomers with Applications to Thermo-Oxidative Aging
J Plagge, M Klüppel
Polymers 12 (6), 1350, 2020
2020
Influence of thermal Aging on mechanical and tribological Properties of Roller Compounds based on EPDM
J Plagge, A Lang, M Klueppel, A Stoll
KGK-KAUTSCHUK GUMMI KUNSTSTOFFE 70 (11-12), 31-37, 2017
2017
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