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Toughness behavior and deformation mechanisms in FCC-based Fe45Co30Cr10V10Ni5-xMnx high-entropy alloys: Insights from instrumented Charpy impact testsopen accessToughness behavior and deformation mechanisms in FCC-based Fe 45 Co 30 Cr 10 V 10 Ni 5-x Mn x high-entropy alloys: Insights from instrumented Charpy impact tests

Other Titles
Toughness behavior and deformation mechanisms in FCC-based Fe 45 Co 30 Cr 10 V 10 Ni 5-x Mn x high-entropy alloys: Insights from instrumented Charpy impact tests
Authors
Jo, Yong HeeChoi, Yeon TaekKim, Dong GeunHan, JeonghoLee, Sukjin
Issue Date
May-2024
Publisher
Elsevier Editora Ltda
Keywords
High-entropy alloy (HEA); Initiation of crack propagation; Instrumented Charpy impact test; Slip-line field; Transformation-induced plasticity (TRIP)
Citation
Journal of Materials Research and Technology, v.30, pp 1758 - 1767
Pages
10
Indexed
SCIE
SCOPUS
Journal Title
Journal of Materials Research and Technology
Volume
30
Start Page
1758
End Page
1767
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/206617
DOI
10.1016/j.jmrt.2024.03.211
ISSN
2238-7854
2214-0697
Abstract
This study investigated toughness properties of FCC-based Fe45Co30Cr10V10Ni5-xMnx high entropy alloys (HEAs). Ductile-dimpled rupture mode in all alloys and test temperatures complicated precise explanations on Charpy impact energy, but the instrumented Charpy test provided a breakdown of total energy (ET) into initiation energy (EI) and propagation energy (EP), offering critical insights into Mn-content- and temperature-related energy variations. Pmax and TP, reflecting maximum flow stress and time, respectively, until initiation of crack propagation from the notch tip, involved a transition of deformation mechanisms from slip to TWIP, then to BCC-TRIP, thereby inducing increased strain hardening and delaying plastic instability at the notch tip. At 25 °C, an increase in Mn content prompted a transition in deformation behavior from slip to TWIP and subsequently to BCC-TRIP, correlating well with increased Pmax and TP and consequently ET due to enhanced strain hardenability. At −196 °C, predominant BCC-TRIP activity in all alloys led to increased formation of BCC martensite, intensifying strain hardening and requiring higher Pmax for crack initiation than at 25 °C. Due to minimal slip line field formation associated with reduced plastic deformation, however, cracks initiated directly from the notch-tip center, representing fast initiation of crack propagation and consequently reduction in EI and ET. Thus, utilizing parameters from instrumented Charpy tests, including Pmax, TP, EI, EP, and ET, provided insights into fracture phenomena and their interrelations in the present HEAs.
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