Articles with public access mandates - Philipp JunkerLearn more
Not available anywhere: 4
Simulation of the dynamic behavior of viscoelastic structures with random material parameters using time-separated stochastic mechanics
H Geisler, J Nagel, P Junker
International Journal of Solids and Structures 259, 112012, 2022
Mandates: German Research Foundation
Time-separated stochastic mechanics for the simulation of viscoelastic structures with local random material fluctuations
H Geisler, P Junker
Computer Methods in Applied Mechanics and Engineering 407, 115916, 2023
Mandates: German Research Foundation
A relaxation approach to modeling the stochastic behavior of elastic materials
P Junker, J Nagel
European Journal of Mechanics-A/Solids 73, 192-203, 2019
Mandates: German Research Foundation
On the rate‐depentent regularization for damage modeling
K Langenfeld, P Junker, J Mosler
PAMM 18 (1), e201800058, 2018
Mandates: German Research Foundation
Available somewhere: 15
Modeling macroscopic material behavior with machine learning algorithms trained by micromechanical simulations
D Reimann, K Nidadavolu, H ul Hassan, N Vajragupta, T Glasmachers, ...
Frontiers in Materials 6, 181, 2019
Mandates: German Research Foundation
Quasi-brittle damage modeling based on incremental energy relaxation combined with a viscous-type regularization
K Langenfeld, P Junker, J Mosler
Continuum Mechanics and Thermodynamics 30, 1125-1144, 2018
Mandates: German Research Foundation
Efficient and robust numerical treatment of a gradient‐enhanced damage model at large deformations
P Junker, J Riesselmann, D Balzani
International Journal for Numerical Methods in Engineering 123 (3), 774-793, 2022
Mandates: German Research Foundation
A new variational approach for the thermodynamic topology optimization of hyperelastic structures
P Junker, D Balzani
Computational Mechanics 67 (2), 455-480, 2021
Mandates: German Research Foundation
Variational material modeling of the transformation induced plasticity in polycrystalline steel
J Waimann, S Reese, P Junker
Tech Mech Sci J Fundam Appl Eng Mech 40 (1), 87-96, 2020
Mandates: German Research Foundation
Thermodynamic topology optimization for sequential additive manufacturing including structural self‐weight
M Kick, DR Jantos, P Junker
Civil Engineering Design 4 (5-6), 162-173, 2022
Mandates: German Research Foundation
Numerical and experimental investigation of multi-species bacterial co-aggregation
M Soleimani, SP Szafranski, T Qu, R Mukherjee, M Stiesch, P Wriggers, ...
Scientific Reports 13 (1), 11839, 2023
Mandates: German Research Foundation
A novel approach for the consideration of plastic material behavior in thermodynamic topology optimization
M Kick, P Junker
PAMM 21 (1), e202100075, 2021
Mandates: German Research Foundation
Functional NiTi grids for in situ straining in the TEM
U Schürmann, C Chluba, N Wolff, D Smazna, RL de Miranda, P Junker, ...
Ultramicroscopy 182, 10-16, 2017
Mandates: German Research Foundation
On the inclusion of plastic material behavior within the thermodynamic topology optimization
M Kick, P Junker
PAMM 23 (1), e202200045, 2023
Mandates: German Research Foundation
On the dynamic simulation of viscoelastic structures with random material properties using time‐separated stochastic mechanics
H Geisler, J Nagel, P Junker
PAMM 22 (1), e202200127, 2023
Mandates: German Research Foundation
Numerical comparison of biofilm growth models using prominent modeling approaches
F Klempt, M Soleimani, P Junker
PAMM 22 (1), e202200054, 2023
Mandates: German Research Foundation
Efficient numerical treatment of a gradient damage model for materials undergoing large deformations
J Riesselmann, P Junker, D Balzani
PAMM 21 (1), e202100153, 2021
Mandates: German Research Foundation
Modeling the evolution of microstructures in finite plasticity
C Günther, P Junker, K Hackl
PAMM 15 (1), 297-298, 2015
Mandates: German Research Foundation
On the thermo‐mechanically coupled simulation of poly‐crystalline Shape Memory Alloys
P Junker, K Hackl
PAMM 10 (1), 295-296, 2010
Mandates: German Research Foundation
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