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Dr.-Ing. Jonathan Schulte

Wissenschaftlicher Mitarbeiter


  Anschrift Dr.-Ing. Jonathan Schulte
Universität Siegen
Lehrstuhl für Numerische Mechanik
Paul-Bonatz-Straße 9-11
57076 Siegen, Germany


Büro Paul-Bonatz-Straße 9-11
Telefon +49 (0)271 740-4637
Email jonathan.schulte@uni-siegen.de
Researchgate, Google Scholar, Scopus, ORCID, Mendeley, LinkedIn, Gründungs-Projekt

Arbeitsgebiete:


Industriekooperation:


Publikationen:

  • M. Dittmann, J. Schulte, F. Schmidt and C. Hesch: A strain-gradient formulation for fiber reinforced polymers: Hybrid phase-field model for porous-ductile fracture, Computational Mechanics, 67:1747–1768 2021,PDF DOI
  • J. Schulte, M. Dittmann, S.R. Eugster, S. Hesch, F.dell'Isola and C. Hesch: Isogeometric analysis of fiber reinforced composites using Kirchhoff-Love shell elements, Comput. Methods Appl. Engrg., 362:112845, 2020, PDF DOI
  • M. Dittmann, F. Aldakheel, J. Schulte, F. Schmidt, M. Krüger, P. Wriggers and C. Hesch: Phase-field modeling of porous-ductile fracture in non-linear thermo-elasto-plastic solids, Comput. Methods Appl. Mech. Engrg., 361:112730, 2020, PDF, DOI
  • M. Dittmann, F. Aldakheel, J. Schulte, P. Wriggers and C. Hesch: Variational Phase-Field Formulation of Non-Linear Ductile Fracture, Comput. Methods Appl. Mech. Engrg., 342:71-94, 2018, PDF DOI

Weitere Publikationen:

  • J. Schulte, M. Dittmann, F. Alkdakheel and C. Hesch: Thermo–mechanical phase–field model for porous–ductile fracture, In Proceedings of the 8th GACM Colloquium on Computational Mechanics, 2019, PDF
  • M. Dittmann, C. Hesch, J. Schulte and F. Aldakheel: Multi-field formulation of large deformation ductile fracture, Proc. Appl. Math. Mech., 2018, PDF, DOI
  • J. Schulte, M. Krüger, M. Dittmann and C. Hesch: Multi-field modeling of thermomechanical coupled fracture problems, Proc. Appl. Math. Mech., 2018, PDF, DOI
  • M. Krüger, J. Schulte, M. Dittmann and C. Hesch: Thermomechanical mortar contact problems with hierarchical refined NURBS for adhesion and anisotropic friction, Proc. Appl. Math. Mech., 2018, PDF, DOI
  • M. Dittmann, C. Hesch, J. Schulte, F. Aldakheel and M. Franke: Multi-field modelling and simulation of large deformation ductile fracture, ECCOMAS Thematic Conference, 2017, PDF

Vorträge:

  • Phase-field modeling of thermomechanical porous-ductile fracture, XII International Conference on Isogeometric Analysis (IGA), Munich, 2019 PDF
  • Thermo–mechanical phase–field model for porous–ductile fracture8th GACM Colloquium on Computational Mechanics (GACM), Kassel, 2019
  • Phase-field modeling of thermomechanical porous-ductile fracture, VI International Conference on Computational Modeling of Fracture and Failure of Materials and Structures (CFRAC), Braunschweig, 2019
  • Multi-field modeling of thermomechanical coupled fracture problems, 89th Annual Meeting of the International Association of Applied Mathematics and Mechanics (GAMM), Munich, 2018.

Lehre (Übung):

  • Höhere Dynamik (SS 2019, SS 2020, SS 2021)
  • Finite-Elemente-Methoden I (WS 2018/19)
  • Einführung in Numerische Methoden und FEM (SS 2017,SS 2018)
  • Einführung in die Informatik I (WS 2010/2011, WS 2012/2013, WS 2013/2014)
  • Einführung in die Informatik II (SS 2011, SS 2012, SS 2013, SS 2014)


Betreute Abschlussarbeiten:

  • Philipp Siebel (M.Sc.): Elektromechanische Modellierung und Simulation von Herzmuskelfasern