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Plasticity with non-linear kinematic hardening: modelling and shakedown analysis by the bipotential approach

✍ Scribed by Guillaume Bodovillé; Géry de Saxcé

Publisher
Elsevier Science
Year
2001
Tongue
English
Weight
110 KB
Volume
20
Category
Article
ISSN
0997-7538

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✦ Synopsis

The class of generalised standard materials is not relevant to model the non-associative constitutive equations. The possible generalisation of Fenchel's inequality proposed by de Saxcé allows the recovery of flow rule normality for non-associative behaviours. The normality rule is written in the weak form of an implicit relation. This leads to the introduction of the class of implicit standard materials. This formulation is applied to constitutive equations involving non-linear kinematic hardening, indispensable to describe accurately and realistically the cyclic plasticity of metallic materials. For these plastic flow rules shakedown bound theorems can be extended; an analytical example of the shakedown of a thin-walled tube under constant traction and alternate cyclic torsion is considered and the obtained solution is proved to be exact.

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✍ M. Canadija; J. Mosler 📂 Article 📅 2011 🏛 Elsevier Science 🌐 English ⚖ 450 KB

The thermomechanical coupling in finite strain plasticity theory with non-linear kinematic hardening is analyzed within the present paper. This coupling is of utmost importance in many applications, e.g., in those showing low cycle fatigue (LCF) under large strain amplitudes. Since the by now classi