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Neutron diffraction analysis of stress and strain partitioning in a two-phase microstructure with parallel-aligned phases

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Version 2 2024-06-18, 22:28
Version 1 2020-09-16, 15:12
journal contribution
posted on 2024-06-18, 22:28 authored by Q Huang, R Shi, O Muránsky, Hossein BeladiHossein Beladi, S Kabra, C Schimpf, O Volkova, H Biermann, J Mola
AbstractBy time-of-flight (TOF) neutron diffraction experiments, the influence of segregation-induced microstructure bands of austenite (γ) and martensite (α′ ) phases on the partitioning of stress and strain between these phases was investigated. Initially, tensile specimens of a Co-added stainless steel were heat treated by quenching and partitioning (Q&P) processing. Tensile specimens were subsequently loaded at 350 °C parallel to the length of the bands within the apparent elastic limit of the phase mixture. Lattice parameters in both axial and transverse directions were simultaneously measured for both phases. The observation of a lattice expansion for the γ phase in the transverse direction indicated a constraint on the free transverse straining of γ arising from the banded microstructure. The lateral contraction of α′ imposed an interphase tensile microstress in the transverse direction of the γ phase. The multiaxial stress state developed in the γ phase resulted in a large deviation from the level of plastic strain expected for uniaxial loading of single phase γ. Since segregation-induced banded microstructures commonly occur in many engineering alloys, the analysis of stress and strain partitioning with the present Q&P steel can be used to interpret the observations made for further engineering alloys with two-phase microstructures.

History

Journal

Scientific Reports

Volume

10

Article number

ARTN 13536

Pagination

1 - 12

Location

England

Open access

  • Yes

ISSN

2045-2322

eISSN

2045-2322

Language

English

Publication classification

C Journal article, C1 Refereed article in a scholarly journal

Copyright notice

2020, The Author(s)

Issue

1

Publisher

NATURE PUBLISHING GROUP