Stacking fault aggregation during cooling composing FCC–HCP martensitic transformation revealed by in-situ electron channeling contrast imaging in an Fe-high Mn alloy

Motomichi Koyama; Misaki Seo; Keiichiro Nakafuji; Kaneaki Tsuzaki

doi:10.1080/14686996.2021.1877570

Science and Technology of Advanced Materials (Dec 2021)

Stacking fault aggregation during cooling composing FCC–HCP martensitic transformation revealed by in-situ electron channeling contrast imaging in an Fe-high Mn alloy

Motomichi Koyama,
Misaki Seo,
Keiichiro Nakafuji,
Kaneaki Tsuzaki

Affiliations

Motomichi Koyama: Tohoku University
Misaki Seo: Kyushu University
Keiichiro Nakafuji: Kyushu University
Kaneaki Tsuzaki: Kyoto University

DOI: https://doi.org/10.1080/14686996.2021.1877570
Journal volume & issue: Vol. 22, no. 1
pp. 135 – 140

Abstract

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To understand the mechanism of FCC–HCP martensitic transformation, we applied electron channeling contrast imaging under cooling to −51°C and subsequent heating to 150°C. The stacking faults were randomly extended and aggregated during cooling. The stacking fault aggregates were indexed as HCP. Furthermore, the shrink of stacking faults due to reverse motion of Shockley partials was observed during heating, but some SFs remained even after heating to the finishing temperature for reverse transformation (Af: 104°C). This fact implies that the chemical driving force of the FCC/HCP phases does not contribute to the motion of a single SF but works for group motion of stacking faults.

Published in Science and Technology of Advanced Materials

ISSN: 1468-6996 (Print); 1878-5514 (Online)
Publisher: Taylor & Francis Group
Country of publisher: United Kingdom
LCC subjects: Technology: Electrical engineering. Electronics. Nuclear engineering: Materials of engineering and construction. Mechanics of materials; Technology: Chemical technology: Biotechnology
Website: https://www.tandfonline.com/journals/tsta

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