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The numerical analysis of material forces in the context of continuum damage and thermo-hyperelasticity constitutes the central topic of this work. We consider the framework of geometrically non-linear spatial and material settings that lead to either spatial or material forces, respectively. Thereby material forces essentially represent the tendency of material defects to move relative to the ambient...
The numerical analysis of material forces in the context of thermo-hyperelasticity constitutes the central topic of the present paper. In contrast to classical spatial forces in the sense of Newton, material forces in the sense of Eshelby indicate the tendency of material inhomogeneities to move relative to their surrounding material. Material forces are thus considered of particular importance in...
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