Ruhr University Bochum
Institute for Structural Mechanics

Universitätsstraße 150
44801 Bochum

Email:
Tel: 0234 /

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Lectures


  • Advanced Finite Element Methods
  • Angewandte Finite-Elemente-Methoden
  • Applied Finite Element Methods
  • Baustatik 1
  • Berechnungsmethoden in der Geotechnik
  • Computational Modeling of Membranes and Shells
  • Exercises in Advanced Finite Element Methods
  • FEM for Nonlinear Analyses of Inelastic Materials and Structures
  • Finite Element Method for Nonlinear Analysis of Inelastic Materials and Structures
  • Finite Element Methods in Linear Computational Dynamics
  • Finite Element Methods in Linear Structural Mechanics
  • Finite Elemente Methoden für geometrisch nichtlineare Strukturanalysen
  • Finite Elemente Methoden für nichtlineare Strukturanalysen
  • Finite-Elemente-Methoden in der linearen Strukturdynamik
  • Grundlagen der Tragwerksdynamik
  • Linear Finite Element Methods
  • Lineare Finite-Elemente-Methoden
  • Numerical Simulation in Geotechnics
  • Numerical Simulation in Tunneling
  • Numerische Simulation im Tunnelbau
  • Object-oriented Modelling and Implementation of Structural Analysis Software
  • Objektorientierte Modellierung und Programmierung der Finite-Elemente-Methode
  • Recent Advances in Numerical Modelling and Simulation
  • Seminar zur versuchsgestützten Schwingungsanalyse von Tragstrukturen
  • Statik und Tragwerkslehre A
  • Statik und Tragwerkslehre B
  • Übung und Seminar: nichtlineare Strukturanalysen im Ingenieurbau

Publications

2009
[ 1 ]Guenther Meschke; Hommel, Jan-Hendrik
Müde Metalle
Rubin / Sonderheft, 2009
DOI ]
2008
[ 2 ]Hommel, Jan-Hendrik; Guenther Meschke
EAS concept for higher-order finite shell elements to eliminate volumetric locking
International journal for numerical methods in engineering, 2008
DOI ]
2007
[ 3 ]Hommel, Jan-Hendrik; Guenther Meschke
Mechanism-oriented simulation of low cycle fatigue of metallic structures
Lifetime-oriented design concepts, 2007, 2007
DOI ]
[ 4 ]Hommel, Jan-Hendrik; Guenther Meschke
Unit-cell and micropore damage models for low cycle fatigue analysis of ductile materials
Computational plasticity, 2007
DOI ]
[ 5 ]Hommel, J.-H.; Meschke, G.
Unit-cell and micropore damage models for low cycle fatigue analysis of ductile metals
Computational Plasticity - Fundamentals and Applications, COMPLAS IX, 2007
DOI ]
2005
[ 6 ]Hommel, Jan-Hendrik; Guenther Meschke
Application of the EAS-concept to a p-version of the finite shell formulation to avoid volumetric locking
Proceedings in applied mathematics and mechanics, 2005
DOI ]
[ 7 ]Hommel, Jan-Hendrik; Kintzel, Olaf; Guenther Meschke
A coupled elasto-plastic micropore damage model for low cycle fatigue analyses of ductile metals at finite strains
Abstract book, 2005
DOI ]
[ 8 ]Hommel, J.-H.; Kintzel, O.; Meschke, G.
A coupled elasto-plastic micropore damage model for low-cycle fatigue analyses of ductile metals at finite strains
11th International Conference on Fracture 2005, ICF11, 2005
DOI ]
2004
[ 9 ]Kintzel, Olaf; Hommel, Jan-Hendrik; Guenther Meschke
Simulation of damage mechanisms and life time prediction of metallic structures
Proceedings of the Second International Conference Lifetime-Oriented Design Concepts, 2004
DOI ]
2003
[ 10 ]Becker, Christian; Hommel, Jan-Hendrik; Guenther Meschke
Finite elements in shell analysis
Proceedings in applied mathematics and mechanics, 2003
DOI ]