Texture evolution in selective laser melted maraging stainless steel CX with martensitic transformation

Journal article (2021)

Authors

H. Pirgazi (OLD) MSE-3 , Universiteit Gent
Mehdi Sanjari Natural Resources Canada, University of New Brunswick
Saeed Tamimi University of Strathclyde
Babak Shalchi Amirkhiz Natural Resources Canada, University of New Brunswick
L.A.I. Kestens Universiteit Gent, (OLD) MSE-3
Mohsen Mohammadi University of New Brunswick
Research Group
(OLD) MSE-3
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Published Date

2021

Language

English

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Research Group

(OLD) MSE-3

Abstract

Due to high local cooling rates and non-equilibrium directional solidification conditions, selective laser melting (SLM) processed metals exhibit microstructural and textural features significantly different from the conventionally processed ones. The evolution of crystallographic orientations in a maraging stainless steel (commercially known as stainless steel CX) sample fabricated by the SLM process was studied through experimental and modelling approaches Electron backscattering diffraction analysis showed that the dominant texture components in martensite and austenite phases are <111>|| building direction and <011>|| building direction, respectively. Texture simulation indicated that the formation of crystallographic orientations in the studied sample is the result of two consecutive phase transformations, from initially solidified delta ferrite phase with dominant cube fiber texture to austenite and austenite to martensite.

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