Dresden / Prague / Aachen / Essen / Fe3 Al / Paris / Oxford / /
Company
F. Jr. Micromagnetics John Wiley & Sons / /
Country
Germany / United Kingdom / Czech Republic / /
Facility
University of Oxford / Institute of Thermomechanics / University We / RWTH Aachen University / Institute of Mechanics / Mathematical Institute / /
IndustryTerm
steel production / real-life applications / incremental energy-minimisation problem / non-convex energy densities / steel type / free energy / lattice systems / magnetocrystalline anisotropy energy contribution / free energy potential / energy wells / rubber hyperelasticity / energy density / presented energy relaxation model / Low-energy states / incremental energy potential / relaxed energy density / numerical solutions / energy / random lattice systems / /
Organization
Mathematical Institute / Institute of Mechanics / Institute of Thermomechanics / TU Dortmund Department of Mathematical Sciences / University of W¨ / Mathematisches Institut / Department of Mathematics / Institute for Mathematics / RWTH Aachen University / TU Dortmund Division of Solid Mechanics / Czech Academy of Sciences / Lund University / Institut f¨ / University of Oxford / Durham University / Department of Mechanical Engineering / /
Person
Georg Dolzmann / Christian Miehe / Ben Zineb / Carolin Kreisbeck / Gloria A. Integral / /
Position
micromechanical model for finite single crystal plasticity / T. Thermomechanical model / representative / forward / /