Grain boundary character distribution in an additively manufactured austenitic stainless steel

The grain boundary character distribution (GBCD) in an austenitic stainless steel produced by additive manufacturing (AM) in both as-built and annealed conditions was studied. Relatively fine grains and a non-fibre texture was achieved by AM, and as-built structure showed a high population of Σ3 bou...

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Published inScripta materialia Vol. 192; pp. 115 - 119
Main Authors Laleh, Majid, Hughes, Anthony E., Tan, Mike Y., Rohrer, Gregory S., Primig, Sophie, Haghdadi, Nima
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.02.2021
Subjects
Additive manufacturing
Austenitic stainless steel
Grain boundary engineering
Austenitic stainless steel
Grain boundary engineering
Additive manufacturing
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Abstract The grain boundary character distribution (GBCD) in an austenitic stainless steel produced by additive manufacturing (AM) in both as-built and annealed conditions was studied. Relatively fine grains and a non-fibre texture was achieved by AM, and as-built structure showed a high population of Σ3 boundaries. A five-parameter GBCD analysis revealed that the microstructure is mostly dominated by highly incoherent Σ3 boundaries. The grain boundary network also consisted of random high angle, coherent Σ3s terminating on (111) planes with a pure twist character, and tilt Σ9 boundaries. The findings show prospects for the possibility of engineering the grain boundary network of materials in-situ, via the stress and heat induced by the thermal cycles during AM. Graphical Abstracts [Display omitted]
AbstractList The grain boundary character distribution (GBCD) in an austenitic stainless steel produced by additive manufacturing (AM) in both as-built and annealed conditions was studied. Relatively fine grains and a non-fibre texture was achieved by AM, and as-built structure showed a high population of Σ3 boundaries. A five-parameter GBCD analysis revealed that the microstructure is mostly dominated by highly incoherent Σ3 boundaries. The grain boundary network also consisted of random high angle, coherent Σ3s terminating on (111) planes with a pure twist character, and tilt Σ9 boundaries. The findings show prospects for the possibility of engineering the grain boundary network of materials in-situ, via the stress and heat induced by the thermal cycles during AM. Graphical Abstracts [Display omitted]
Author Haghdadi, Nima
Laleh, Majid
Tan, Mike Y.
Primig, Sophie
Rohrer, Gregory S.
Hughes, Anthony E.
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Keywords Austenitic stainless steel
Grain boundary engineering
Additive manufacturing
Language English
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Snippet The grain boundary character distribution (GBCD) in an austenitic stainless steel produced by additive manufacturing (AM) in both as-built and annealed...
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SubjectTerms Additive manufacturing
Austenitic stainless steel
Grain boundary engineering
Title Grain boundary character distribution in an additively manufactured austenitic stainless steel
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