According to Eshelby’s theory, inelastically inhomogeneous inclusions in a metallic matrix give rise to a distribution of internal stresses. In the case of particle strengthened materials, such as nickel base superalloys, the presence and evolution of this back-stress leads to various observable effects, such as primary creep, back-flow upon loading, and memory of prior deformation. This article presents the background of the concept of back-stress and how it applies to the scenario of creep. A derivation of an evolution equation for back-stress in the context of primary creep is also presented. The results from neutron diffraction with in-situ creep experiments on directionally solidified nickel superalloys are presented in order to demonstrate the validity of the proposed equation and the corollaries derived therefrom. © 2020 by the authors. Licensee MDPI, Basel, Switzerland.

Saswata Bhattacharya

Department of Materials Science and Metallurgical Engineering

S. Sarkar

Y. Gao

S. Huang

S. Patil

R. Oruganti

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Crystals

Back-stress and its evolution during primary creep in particle strengthened nickel superalloys

Journal	Crystals
Publisher	MDPI AG
ISSN	20734352