Anirban Patra scite author profile

A constitutive crystal plasticity model is proposed and developed for the inelastic deformation of irradiated bcc ferritic/martensitic steels. Defects found in these irradiated materials are used as substructure variables in the model. Insights from lower length-and time-scale simulations are used to frame the kinematic and substructure evolution relations of the governing deformation mechanisms. Models for evolution of mobile and immobile dislocations, as well as interstitial loops (formed due to irradiation), are developed. A rate theory-based approach is used to model the evolution of point defects generated during irradiation. The model is used to simulate the quasi-static tensile and creep response of a martensitic steel over a range of loading histories.

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Crystal plasticity modeling of irradiation growth in Zircaloy-2

Patra

Tomé

Golubov

2017

Philosophical Magazine

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Continuum modeling of localized deformation in irradiated bcc materials

Patra

McDowell

2013

Journal of Nuclear Materials

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Constitutive equations for modeling non-Schmid effects in single crystal bcc-Fe at low and ambient temperatures

Patra

Zhu

McDowell

2014

International Journal of Plasticity

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Crystal plasticity investigation of the microstructural factors influencing dislocation channeling in a model irradiated bcc material

Patra

2016

Acta Materialia

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Anirban Patra

Crystal plasticity-based constitutive modelling of irradiated bcc structures

Crystal plasticity modeling of irradiation growth in Zircaloy-2

Continuum modeling of localized deformation in irradiated bcc materials

Constitutive equations for modeling non-Schmid effects in single crystal bcc-Fe at low and ambient temperatures

Crystal plasticity investigation of the microstructural factors influencing dislocation channeling in a model irradiated bcc material

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