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Overcoming plasticity reduction in a severely deformed nano-grained metastable alloy

Abstract: Generally, most bulk metallic materials reveal an increased strength but a loss of ductility after cold deformation, referred as the strength–ductility trade-off. This phenomenon is moderately less in some metastable alloys, which exhibit a transformation-induced plasticity (TRIP), i.e., a martensitic transformation from FCC phase to BCC phase. However, most of them show outstanding mechanical properties induced by TRIP effect only at cryogenic conditions. In this study, we present a strategy to overcome this problem by introducing a high density of crystalline defects into a Fe-based metastable alloy by refining grains to a nanometer scale. This procedure significantly improves the kinetics and reduces the driving force for TRIP. As a result, the TRIP effect originally occurring at cryogenic temperature in the Fe-based metastable alloy, is also active at ambient conditions, contributing to a strength-ductility synergy and overcoming cold working induced sacrifice of ductility. TechnicalRemarks: Raw data for the figures

Cite this as

Lu, Yemao, Zhu, Gaoming, Ivanisenko, Y., Hahn, H. (2024). Dataset: Overcoming plasticity reduction in a severely deformed nano-grained metastable alloy. https://doi.org/10.35097/1937

DOI retrieved: 2024

Additional Info

Field Value
Imported on November 28, 2024
Last update November 28, 2024
License CC BY 4.0 Attribution
Source https://doi.org/10.35097/1937
Author Lu, Yemao
Given Name Yemao
Family Name Lu
More Authors
Zhu, Gaoming
Ivanisenko, Y.
Hahn, H.
Source Creation 2024
Publishers
Karlsruhe Institute of Technology
Production Year 2024
Publication Year 2024
Subject Areas
Name: Engineering