Logo RUB
  • Institute
    • ICAMS
      • Mission
      • Structure
      • Members
    • Departments & Research Groups
      • Atomistic Modelling and Simulation
      • Scale-Bridging Thermodynamic and Kinetic Simulation
      • Micromechanical and Macroscopic Modelling
      • Artificial Intelligence for Integrated Material Science
      • Scale-Bridging Simulation of Functional Composites
      • Materials Informatics and Data Science
      • Theory of Excited States of Integrated Solid State Systems
      • High-Performance Computing in Materials Science
    • Advanced Study Groups
      • Ab Initio-Based Modelling
      • Input Data and Validation
      • Diffusion and Microstructure Analysis
      • Continuum Mechanics
      • Processing and Characterization
    • Central Services
      • Coordination Office
      • IT
  • Research
    • Overview
    • Publications
    • Software and Data
    • Collaborative research
    • Research networks
    • Young enterprises
  • Teaching
    • Overview
    • Materialwissenschaft B.Sc.
    • Materials Science and Simulation M.Sc.
    • ICAMS Graduate School
    • Student Projects
  • News & Events
    • Overview
    • News
    • Seminars and Workshops
    • Conferences
  • Services
    • Overview
    • Contact
    • Open positions
    • Travel information
 
ICAMS
ICAMS
MENÜ
  • RUB-STARTSEITE
  • Institute
    • ICAMS
    • Departments & Research Groups
    • Advanced Study Groups
    • Central Services
  • Research
    • Overview
    • Publications
    • Software and Data
    • Collaborative research
    • Research networks
    • Young enterprises
  • Teaching
    • Overview
    • Materialwissenschaft B.Sc.
    • Materials Science and Simulation M.Sc.
    • ICAMS Graduate School
    • Student Projects
  • News & Events
    • Overview
    • News
    • Seminars and Workshops
    • Conferences
  • Services
    • Overview
    • Contact
    • Open positions
    • Travel information

Just another WordPress site - Ruhr-Universität Bochum

ICAMS
Prof. Dr.-Ing. Sebastian Münstermann

Advanced Study Group Leader

Department: Processing and Characterization

RWTH Aachen

Contact

Institut für Eisenhüttenkunde
RWTH Aachen
006.1
Intzestraße 1
52072 Aachen

Tel.: +49 241 80 95800
E-Mail: sebastian.muenstermann@iehk.rwth-aachen.de

Publications
  • F. Pütz, S. Münstermann
    A data driven computational microstructure analysis on the influence of martensite banding on damage in DP-steels. Computational Materials Science, 218, 111903, (2023)
  • N. Sayer, P. Sonnweber-Ribic, S. Münstermann
    A novel microscale fatigue failure indicator considering plastic irreversibility for microstructure-based lifetime simulation. International Journal of Fatigue, 163, 107115, (2022)
  • F. Shen, S. Münstermann, J. Lian
    A unified fracture criterion considering stress state dependent transition of failure mechanisms in bcc steels at –196 °C. International Journal of Plasticity, 159, 103365, (2022)
  • A. Durmaz, P. Sonnweber-Ribic, S. Münstermann, C. Eberl, P. Gumbsch
    Micromechanical fatigue experiments for validation of microstructure-sensitive fatigue simulation models. International Journal of Fatigue, 160, 106824, (2022)
  • K. Gillner, S. Münstermann
    A method to numerically predict the loading ratio dependency of long crack propagation rates under cyclic loading. International Journal of Fatigue, 116, 234-244, (2018)
  • J. Lian, F. Shen, S. Münstermann, W. Bleck
    An evolving non-associated Hill48 plasticity model accounting for anisotropic hardening and r-value evolution and its application to forming limit prediction. International Journal of Solids and Structures, 151, 20-44, (2018)
  • C. Gu, J. Lian, S. Münstermann
    An experimental study on the impact of deoxidation methods on the fatigue properties of bearing steels. Steel Research International, 89, 1800129, (2018)
  • K. Gillner, S. Münstermann
    Numerical study of inclusion parameters and their influence on fatigue lifetime. International Journal of Fatigue, 111, 70-80, (2018)
  • S. Gupta, P. Kucharczyk, S. Münstermann, R. Jayaganthan
    Prestraining induced enhancement in the fatigue limit obtained by load increasing thermal method for metastable austenitic stainless steel. Steel Research International, 89, 1700434, (2018)
  • K. Gillner, S. Münstermann
    Numerically predicted high cycle fatigue properties through representative volume elements of the microstructure. International Journal of Fatigue, 105, 219-234, (2017)
  • S. Münstermann, J. Lian
    Modelling of ductile fracture under non-proportional strain paths. Proceedings of the 14th International Conference on Fracture, Rhodes, 1, (2017)
  • B. Wu, N. Vajragupta, J. Lian, U. Hangen, et al.
    Prediction of plasticity and damage initiation behaviour of C45E + N steel by micromechanical modelling. Materials & Design, 121, 154-166, (2017)
  • Y. Di, J. Lian, B. Wu, N. Vajragupta, S. Münstermann
    The second blind Sandia Fracture Challenge: Improved MBW model predictions for different strain rates. International Journal of Fracture, 198, 149-165, (2016)
  • B. L. Boyce, N. Vajragupta, S. Münstermann
    The second Sandia Fracture Challenge: Predictions of ductile failure under quasi-static and moderate-rate dynamic loading. International Journal of Fracture, 198, 5-100, (2016)
  • D. Novokshanov, M. Sharaf, S. Münstermann, J. Lian
    A new model for upper shelf impact toughness assessment with a computationally efficient parameter identification algorithm. Engineering Fracture Mechanics, 148, 281-303, (2015)
  • B. Wu, Y. Yan, S. Münstermann
    Modelling of chip breakage in machining process with damage mechanics model. Applied Mechanics and Materials, 784, 411-418, (2015)
  • J. Lian, N. Vajragupta, S. Münstermann, W. Bleck, H. Yang
    A method to quantitatively upscale the damage initiation of dual-phase steels under various stress states from microscale to macroscale. Computational Materials Science, 94, 245–257, (2014)
  • N. Vajragupta, P. Wechsuwanmanee, J. Lian, M. Sharaf, et al.
    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 the strain hardening behavior. Computational Materials Science, 95, 198-213, (2014)
  • M. Sharaf, P. Kucharczyk, N. Vajragupta, S. Münstermann, et al.
    Modeling the microstructure influence on fatigue life variability in structural steels. Computational Materials Science, 94, 258-272, (2014)
  • S. Gupta, R. Twardowski, P. Kucharczyk, S. Münstermann
    Experimental and numerical investigations of the TRIP effect in 1.4301 austenitic stainless steel under static loading. Steel Research International, 85, 793-802, (2014)
  • S. Münstermann, N. Vajragupta, J. Lian
    Modeling the cold formability of dualphase steels on different length scales. Procedia Materials Science, 3, 1050–1055, (2014)
  • S. Münstermann, J. Lian, N. Vajragupta
    Evaluation of the cold formability of multiphase steels by damage mechancis approaches. Materials Testing, 55, 628-635, (2013)
  • J. Lian, M. Sharaf, P. Kucharczyk, S. Münstermann
    A complete damage model associated with localized and diffuse necking for AHSS Sheet. Proceedings of the 6th Forming Technology Forum, (2013)
  • N. Vajragupta, J. Lian, M. Sharaf, S. Münstermann, W. Bleck
    The influence of grain size distribution on strain hardening behaviour for dual phase steels using statistically informed artificial microstructure model and crystal plasticity. Proceedings of the International Conference on Computational Plasticity, Fundamentals and Applications, COMPLAS XII, 1458-1470, (2013)
  • J. Lian, N. Vajragupta, S. Münstermann
    Micromechanical modeling of damage and failure in dual phase steels. Key Engineering Materials, 554-557, 2369-2374, (2013)
  • M. Sharaf, P. Kucharczyk, A. Ma, N. Vajragupta, et al.
    Assessment of fatigue microcrack initiation and growth capabilities in structural steels: an interdisciplinary experimental and numerical method. Proceedings of the 3rd International Conference of Engineering Against Failure, (2013)
  • S. Münstermann, N. Vajragupta, B. Weisgerber
    A numerical study on the mechanical properties and the processing behaviour of composite high strength steels. Materials Testing, 55, 336-344, (2013)
  • J. Lian, M. Sharaf, F. Archie, S. Münstermann
    A hybrid approach for modelling of plasticity and failure behaviour of advanced high-strength steel sheets. International Journal of Damage Mechanics, 22, 188-218, (2013)
  • N. Vajragupta, J. Lian, S. Münstermann, W. Bleck
    The strategy to consider microstructure features on the formability of AHSS: characterization of grain boundary properties. MEFORM 2013: Simulation von Umformprozessen, (2013)
  • M. Sharaf, J. Lian, N. Vajragupta, S. Münstermann, et al.
    Influence of microstructural features on the propagation of microstructurally short fatigue cracks in structural steels. Fatigue of Materials II, 243-250, (2013)
  • N. Vajragupta, V. Uthaisangsuk, B. Schmaling, S. Münstermann, et al.
    A micromechanical damage simulation of dual phase steels using XFEM. Computational Materials Science , 54, 271-279, (2012)
  • J. Lian, N. Vajragupta, S. Münstermann, W. Bleck
    On application of a damage plasticity model to sheet metal forming of DP steel. Steel Research International Special Edition: 10th International Conference on Technology of Plasticity, Aachen, 901-906, (2011)
  • J. Lian, N. Vajragupta, S. Münstermann
    Multiscale modeling of cold formability of DP steel using XFEM and the modified Mohr-Coulomb criterion. Proceeding, 26. Aachener Stahlkolloquium, Aachen, Germany, (2011)
  • P. Kucharczyk, M. Sharaf, S. Münstermann
    Influence of microstructure on fatigue crack growth in structural steel. 26. Aachener Stahlkolloquium 2011, (2011)
Talks and Posters
  • 27.06.2018
    Sebastian Münstermann
    Modelling the influence of inclusions on the fatigue lifetime of steels
    10 Years ICAMS - International Symposium, Ruhr-Universität Bochum, Germany
  • 27.06.2018
    Junhe Lian, Wenqi Liu, Sebastian Münstermann
    Microstructure modelling guided design of high-strength and damage-tolerance steels
    10 Years ICAMS - International Symposium, Ruhr-Universität Bochum, Germany
  • 12.04.2018
    Junhe Lian, K. Gilllner, C. Gu, Sebastian Münstermann
    Numerical study of inclusion parameters and their influence on fatigue lifetime
    Frühjahrssitzung 2018 der AG Materialermüdung, Osnabrück, Germany
  • 11.10.2017
    Sebastian Münstermann, Benedikt Döbereiner, Denis Novokshanov
    Design of damage tolerance in high-strength steels invited
    MPA-Seminar, Stuttgart, Germany
  • 20.06.2016
    Sebastian Münstermann, Mohamed Sharaf
    A numerical approach to quantify the microstructure effect on the endurance fatigue strength of structural steel
    21st European Conference on Fracture, Catania, Italy
  • 14.06.2016
    Sebastian Münstermann, Bo Wu, Junhe Lian
    An extension of the modified Bai Wierzbicki model to non-proportional loading invited
    IDDRG Conference 2016: Challenges in Forming High-Strength Sheets, Linz, Austria
  • 21.10.2015
    Sebastian Münstermann, Georg Golisch, Bo Wu
    A hybrid damage mechanics model to predict the impact toughness of structural steel invited
    Bao Steel Conference 2015, Shanghai, China
  • 21.04.2015
    Bo Wu, Napat Vajragupta, Junhe Lian, Yu Duan, et al.
    FE simulation of nanoindentation tests with crystal plasticity finite element method and virtual experiment invited
    Hysitron Nanobrücken Workshop and User Meeting 2015, Potsdam, Germany
  • 03.10.2014
    Mohamed Sharaf, Sebastian Münstermann, Pawel Kucharczyk, Alexander Hartmaier, Wolfgang Bleck
    The optimum microstructure fatigue resistance: a micromechanical solution to an inferential statistics problem
    XXIV International Workshop on Computational Micromechanics of Materials, Madrid, Spain
  • 24.09.2014
    Mohamed Sharaf, Sebastian Münstermann, Napat Vajragupta, Pawel Kucharczyk, et al.
    Structural steel endurance: towards the optimum microstructure fatigue resistance
    Materials Science and Engineering MSE 2014, Darmstadt, Germany
  • 11.06.2014
    Mohamed Sharaf, Napat Vajragupta, Sebastian Münstermann, Pawel Kucharczyk, et al.
    The fatigue limit of steel: a numerical solution to the short cracks problem
    The 2nd International Symposium on Fatigue Design & Material Defects, Paris, France
  • 27.03.2014
    Mohamed Sharaf, Pawel Kucharczyk, Napat Vajragupta, Sebastian Münstermann, et al.
    Steel endurance: from microstructure to fatigue properties
    29th Aachen Stahlkolloquium, Aachen, Germany
  • 04.10.2013
    Napat Vajragupta, Junhe Lian, Mohamed Sharaf, Sebastian Münstermann
    The modelling scheme to evaluate the influence of microstructure features on microcrack formation of DP-steel invited
    23rd International Workshop on Computational Mechanics of Materials (IWCMM), Singapore
  • 04.10.2013
    Mohamed Sharaf, Pawel Kucharczyk, Napat Vajragupta, Sebastian Münstermann, et al.
    Numerical simulation of cyclic microcrack growth capability using a crystal plasticity based material model and its experimental validation invited
    23rd International Workshop on Computational Mechanics of Materials (IWCMM), Singapore
  • 19.09.2013
    Junhe Lian, Mohamed Sharaf, Pawel Kucharczyk, Sebastian Münstermann
    A complete damage model associated with localized and diffuse necking for AHSS sheet invited
    6th Forming Technology Forum, Herrsching, Germany
  • 05.09.2013
    Napat Vajragupta, Junhe Lian, Mohamed Sharaf, Sebastian Münstermann
    The influence of grain size distribution on strain hardening behaviour for dual phase steels using statistically informed artificial microstructure model and crytsal plasticity invited
    COMPLAS XII, Barcelona, Spain
  • 28.06.2013
    Mohamed Sharaf, Pawel Kucharczyk, Anxin Ma, Napat Vajragupta, et al.
    Assessment of fatigue microcrack initiation and growth capabilities in structural steels: an interdisciplinary experimental and numerical method invited
    3rd International Conference of Engineering Against Failure (ICEAF III), Kos, Greece
  • 07.05.2013
    Sebastian Münstermann, Ulrich Prahl, Wolfgang Bleck
    Understanding complex microstructure for various applications
    ICAMS² 2013, International Colloquium on Advanced Materials Simulation, Bochum, Germany
  • 20.03.2013
    Napat Vajragupta, Junhe Lian, Sebastian Münstermann, Wolfgang Bleck
    The strategy to consider microstructure features on the formability of AHSS: characterization of grain boundary properties invited
    MEFORM 2013, Freiburg, Germany
  • 06.12.2012
    Sebastian Münstermann, Junhe Lian, Napat Vajragupta
    Schädigungsmechanische Bewertung der Kaltumformbarkeit von mehrphasigen Stählen
    DGM-Tagung Werkstoffprüfung 2012, Bad Neuenahr, Germany
  • 07.10.2012
    Junhe Lian, Siwen Gao, Mohamed Sharaf, Napat Vajragupta, et al.
    Crystal plasticity modelling on single crystal and polycrystal of a ferritic steel sheet
    Materials Science & Technology 2012 Pittsburgh, USA
  • 24.09.2012
    Napat Vajragupta, Junhe Lian, Mohamed Sharaf, Benjamin Schmaling, et al.
    Generation of statistically-based RVE for dual-phase microstructure using multiplicative weighted Voronoi tessellation and the application to crystal plasticity
    International workshop on computational mechanics of materials IWCMM XXII
  • 15.02.2012
    Mohamed Sharaf, Sebastian Münstermann, Steffen Brinckmann, Alexander Hartmaier
    Microstructural influence on growth of short cyclic cracks in structural steels
    44. Tagung des DVM-Arbeitskreises Bruchvorgänge, Darmstadt, Germany
  • 27.10.2011
    Mohamed Sharaf, Sebastian Münstermann, Steffen Brinckmann
    Microstructural influence on growth of short cyclic cracks in structural steels
    ICAMS Advanced Discussion, Bochum, Germany
  • 28.09.2011
    Junhe Lian, Napat Vajragupta, Sebastian Münstermann, Wolfgang Bleck
    On application of a damage plasticity model to sheet metal forming of DP Steel
    10th International Conference on Technology of Plasticity (ICTP 2011), Aachen, Germany
  • 23.05.2011
    Pawel Kucharczyk, Mohamed Sharaf, Sebastian Münstermann
    On the influence of steel microstructure on short crack growth under cyclic loading
    International Symposium in Fatigue Design & Material Defects, Trondheim, Norway
  • 20.05.2011
    Junhe Lian, Napat Vajragupta, Sebastian Münstermann
    Multiscale modelling of cold formability of DP steel using XFEM and the modified Mohr-Coulomb criterion
    ASK 2011 - 26. Aachener Stahl Kolloquium Werkstofftechnik EUROGRESS Aachen, Germany
  • 19.05.2011
    Pawel Kucharczyk, Mohamed Sharaf, Sebastian Münstermann
    Einfluss der Mikrostruktur auf das zyklische Risswachstum in Baustählen
    ASK 2011 - 26. Aachener Stahlkolloquium, EUROGRESS Aachen, Aachen, Germany
  • 23.03.2011
    Napat Vajragupta, V. Uthaisangsuk, Sebastian Münstermann, Wolfgang Bleck
    Micromechanical damage modeling of multiphase steels
    Sitzung des Arbeitskreises Mikrostrukturmechanik im Fachausschuss Computersimulation der Deutschen Gesellschaft für Materialkunde, Aachen, Germany
  • 04.11.2010
    Mohamed Sharaf, Sebastian Münstermann, Steffen Brinckmann, Wolfgang Bleck
    Microstructural influences on growth of short cracs in steel under cyclic loading
    ICAMS Advanced Discussion on Current Developments, Bochum, Germany
  • 08.09.2010
    Napat Vajragupta, V. Uthaisangsuk, Benjamin Schmaling, Sebastian Münstermann, et al.
    A micromechanical damage simulation of dual phase steels using XFEM and cohesive elements
    The 20th International Workshop on Computational Mechanics of Materials 2010, Loughborough, United Kingdom, September 8-10, 2010
  • 01.09.2009
    V. Uthaisangsuk, Ulrich Prahl, Sebastian Münstermann, Wolfgang Bleck
    An investigation on segregation induced microcracks in multiphase steel
    19th International Workshop on Computational Mechanics of Materials – IWCMM19, Constanta, Romania
  • 09.03.2009
    Sebastian Münstermann, Wolfgang Bleck
    Numerical modelling of toughness properties
    Werkzeuge in Industrie und Wissenschaft - Modellierung/Simulation/Berechnung, ICAMS Advanced Discussion, Bochum, Germany
back
Logo RUB
  • Open positions
  • Travel information
  • Imprint
  • Privacy Policy
  • Sitemap
Ruhr-Universität Bochum
Universitätsstraße 150
44801 Bochum

  • Open positions
  • Travel information
  • Imprint
  • Privacy Policy
  • Sitemap
Seitenanfang Kontrast N