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Effects of Transformation-Induced Plasticity on Tensile Properties of Senary Cr-V-Fe-Co-Ni-Mn High Entropy Alloys

Title
Effects of Transformation-Induced Plasticity on Tensile Properties of Senary Cr-V-Fe-Co-Ni-Mn High Entropy Alloys
Authors
양준하
Date Issued
2020
Publisher
포항공과대학교
Abstract
A new metastable high-entropy alloy (HEA) system was suggested by thermodynamic calculations based on the Gibbs free energies of FCC and HCP and the associated stacking fault energy (SFE). The Fe45Co30Cr10V10Ni5-xMnx (x=0, 2.5, and 5 at.%) alloys were fabricated, and their tensile properties were evaluated at room and cryogenic temperatures. The relationship between the deformation mechanism and strain hardening behavior was investigated to reveal the role of deformation-induced martensitic transformation on tensile properties. The difference in Gibbs energy decreases with increasing Mn content, leading to the decreased SFE in sequence. At room temperature, ~60% of BCC martensite in the 5Mn HEA contributes effectively to the steady strain hardening, suppressing the plastic instability. This TRIP effect achieves much eminence in the cryogenic deformation, enabling the tensile strength to reach over 1.6 GPa due to 100% of BCC and HCP martensite. In addition to the fraction of martensite, the increased Mn content reduces a critical strain required to trigger the martensitic transformation and then raises the transformation rate. The present findings may provide a guide for the design of metastable HEAs to enhance tensile properties for cryogenic applications through adjusting SFE and TRIP effect.
URI
http://postech.dcollection.net/common/orgView/200000286526
https://oasis.postech.ac.kr/handle/2014.oak/111536
Article Type
Thesis
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