Sebastian Münstermann
Sebastian Münstermann
Institut für Eisenhüttenkunde der RWTH Aachen
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Cited by
Cited by
A hybrid approach for modelling of plasticity and failure behaviour of advanced high-strength steel sheets
J Lian, M Sharaf, F Archie, S Münstermann
International Journal of Damage Mechanics 22 (2), 188-218, 2013
Review on fracture and crack propagation in weldments–A fracture mechanics perspective
U Zerbst, RA Ainsworth, HT Beier, H Pisarski, ZL Zhang, K Nikbin, ...
Engineering fracture mechanics 132, 200-276, 2014
A micromechanical damage simulation of dual phase steels using XFEM
N Vajragupta, V Uthaisangsuk, B Schmaling, S Münstermann, ...
Computational Materials Science 54, 271-279, 2012
Experimental and numerical failure criterion for formability prediction in sheet metal forming
V Uthaisangsuk, U Prahl, S Münstermann, W Bleck
Computational materials science 43 (1), 43-50, 2008
The second Sandia Fracture Challenge: predictions of ductile failure under quasi-static and moderate-rate dynamic loading
BL Boyce, SLB Kramer, TR Bosiljevac, E Corona, JA Moore, K Elkhodary, ...
International Journal of Fracture 198, 5-100, 2016
An evolving non-associated Hill48 plasticity model accounting for anisotropic hardening and r-value evolution and its application to forming limit prediction
J Lian, F Shen, X Jia, DC Ahn, DC Chae, S Münstermann, W Bleck
International Journal of Solids and Structures 151, 20-44, 2018
G Sedlacek, M Feldmann, B Kühn, D Tschickardt, S Höhler, C Müller, ...
FE-simulation of machining processes with a new material model
S Buchkremer, B Wu, D Lung, S Münstermann, F Klocke, W Bleck
Journal of Materials Processing Technology 214 (3), 599-611, 2014
A strategy for synthetic microstructure generation and crystal plasticity parameter calibration of fine-grain-structured dual-phase steel
W Liu, J Lian, N Aravas, S Münstermann
International Journal of Plasticity 126, 102614, 2020
A method to quantitatively upscale the damage initiation of dual-phase steels under various stress states from microscale to macroscale
J Lian, H Yang, N Vajragupta, S Münstermann, W Bleck
Computational materials science 94, 245-257, 2014
Evaluation of the cold formability of high-strength low-alloy steel plates with the modified Bai–Wierzbicki damage model
J Lian, J Wu, S Münstermann
International Journal of Damage Mechanics 24 (3), 383-417, 2015
A study of microcrack formation in multiphase steel using representative volume element and damage mechanics
V Uthaisangsuk, S Muenstermann, U Prahl, W Bleck, HP Schmitz, ...
Computational materials science 50 (4), 1225-1232, 2011
Fracture-mechanics based prediction of the fatigue strength of weldments. Material aspects
P Kucharczyk, M Madia, U Zerbst, B Schork, P Gerwien, S Münstermann
Engineering fracture mechanics 198, 79-102, 2018
Prediction of crack formation in the progressive folding of square tubes during dynamic axial crushing
W Liu, J Lian, S Münstermann, C Zeng, X Fang
International Journal of Mechanical Sciences 176, 105534, 2020
The modeling scheme to evaluate the influence of microstructure features on microcrack formation of DP-steel: The artificial microstructure model and its application to predict …
N Vajragupta, P Wechsuwanmanee, J Lian, M Sharaf, S Münstermann, ...
Computational materials science 94, 198-213, 2014
Extension of the modified Bai‐Wierzbicki model for predicting ductile fracture under complex loading conditions
B Wu, X Li, Y Di, V Brinnel, J Lian, S Münstermann
Fatigue & Fracture of Engineering Materials & Structures 40 (12), 2152-2168, 2017
A new model for upper shelf impact toughness assessment with a computationally efficient parameter identification algorithm
D Novokshanov, B Döbereiner, M Sharaf, S Münstermann, J Lian
Engineering Fracture Mechanics 148, 281-303, 2015
Microstructure-based fatigue modelling with residual stresses: Prediction of the microcrack initiation around inclusions
C Gu, J Lian, Y Bao, S Münstermann
Materials Science and Engineering: A 751, 133-141, 2019
Numerically predicted high cycle fatigue properties through representative volume elements of the microstructure
K Gillner, S Münstermann
International Journal of Fatigue 105, 219-234, 2017
Numerical determination of the damage parameters of a dual-phase sheet steel
O West, J Lian, S Münstermann, W Bleck
ISIJ international 52 (4), 743-752, 2012
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