Seite Veröffentlichungen

Veröffentlichungen von Michael Johlitz

PD Dr.-Ing. habil. Michael Johlitz: Veröffentlichungen ab 2010


2012

  • M. Johlitz [2012]: On the representation of ageing phenomena, J. Adhesion, accepted.
  • M. Johlitz, S. Diebels und W. Possart [2012]: Investigation of the thermoviscoelastic material behaviour of adhesive bonds close to the glass transition temperature, Arch. Appl. Mech., accepted.
  • A. Lion und M. Johlitz [2012]: On the representation of chemical ageing of rubber in continuum mechanics, Int. J. Solids Struct., accepted.

2011

  • M. Johlitz, J. Retka und A. Lion [2011]: Chemical ageing of elastomers: Experiments and modelling, Proceedings of the 7th European conference on constitutive models for rubber (ECCMR), Volume 7, 113--118.
  • M. Johlitz und S. Diebels [2011]: Effective Mechanical Behavior of Filled Polymers,
    Mech. Adv. Mater. Struc., Volume 18 Issue 2, 106-114.
  • C. Liebl, M. Johlitz, B. Yagimli und A. Lion [2011]: Simulation of curing-induced viscoplastic deformation: A new approach considering chemo-thermomechanical coupling, Arch. Appl. Mech., accepted.
  • C. Liebl, M. Johlitz, B. Yagimli, A. Lion [2011]: Three-dimensional chemo-thermomechnically coupled simulation of curing adhesives including viscoplasticity and chemical shrinkage, Comput. Mech., accepted.
  • N. Koprowski-Theiss, M. Johlitz und S. Diebels [2011]: Characterizing the time dependence of filled EPDM, Rubber Chem. Technol., Volume 84 Issue 2, 147-168.
  • N. Koprowski-Theiss, M. Johlitz und S. Diebels [2011]: Modelling of a Cellular Rubber with Nonlinear Viscosity Functions, Exp. Mech., Volume 51 Issue 5, 749-765.
  • N. Koprowski-Theiss, M. Johlitz und S. Diebels [2011]: Pressure dependent properties of a compressible polymer, Exp. Mech., published online (DOI:10.1007/s11340-011-9489-9).
  • N. Koprowski-Theiss, M. Johlitz und S. Diebels [2011]: Compressible rubber materials: Experiments and Simulations, Arch. Appl. Mech., accepted.

 

2010

  • M. Johlitz, D. Scharding, S. Diebels, J. Retka und A. Lion [2010]: Modelling of thermo-viscoelastic material behaviour of polyurethane close to the glass transition temperature, Z. Angew. Math. Mech., Volume 90 Issue 5, 387-398.
  • M. Johlitz und S. Diebels [2010]: Characterisation of a polymer using biaxial tension tests. Part I: Hyperelasticity, Arch. Appl. Mech., published online (DOI: 10.1007/s00419-010-0480-1).