Geometry and thermomechanics of structural rearrangements: Ekkehart Kröner's legacy Plenary lecture presented at the 80th Annual GAMM Conference, Augsburg, 25‐28 March 2002
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Medientyp:
E-Artikel
Titel:
Geometry and thermomechanics of structural rearrangements: Ekkehart Kröner's legacy Plenary lecture presented at the 80th Annual GAMM Conference, Augsburg, 25‐28 March 2002
Beteiligte:
Maugin, G.A.
Erschienen:
Wiley, 2003
Erschienen in:ZAMM - Journal of Applied Mathematics and Mechanics / Zeitschrift für Angewandte Mathematik und Mechanik
Beschreibung:
<jats:title>Abstract</jats:title><jats:p>Starting with the influential ideas of E. Kröner on the Non‐Riemannian geometrical theory of defects and a brief review of his works, we show how this legacy has developed into a true mechanics of materials on the material manifold. This synthesis, that essentially combines Kröner's ideas and those of his contemporary, J. D. Eshelby, yields a powerful unification of some of the most fruitful developments of continuum thermomechanics at the end of the XXth century and the beginning of the XXIst. In particular, a general theory of material inhomogeneities emerges which includes the study of the progress, under the action of well defined driving forces, of many microscopic and macroscopic defects or field singularities. In particular, we emphasize the relationship between the notion of material Eshelby stress and the notion of local structural rearrangements that are responsible for many of the macroscopically observed irreversible behaviors of solid‐like matter (e.g., anelasticity, damage, phase transitions, growth). All these phenomena take place directly on the material manifold. That is, their arena and that of the associated driving forces, also called configurational forces, or material forces, require a general setting that emphasizes this material peculiarity. This is the object of the paper in which all types of applications are also mentioned.</jats:p>