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Cited 58 time in webofscience Cited 62 time in scopus
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Nano-scale solute heterogeneities in the ultrastrong selectively laser melted carbon-doped CoCrFeMnNi alloy

Authors
Kim, Jung GiPark, Jeong MinSeol, Jae BokChoe, JunghoYu, Ji-HunYang, SangsunKim, Hyoung Seop
Issue Date
31-Jan-2020
Publisher
Elsevier BV
Keywords
Additive manufacturing; Heterogeneous structure; High entropy alloy; Microstructure; Mechanical property
Citation
Materials Science and Engineering: A, v.773
Indexed
SCIE
SCOPUS
Journal Title
Materials Science and Engineering: A
Volume
773
URI
https://scholarworks.gnu.ac.kr/handle/sw.gnu/6989
DOI
10.1016/j.msea.2019.138726
ISSN
0921-5093
1873-4936
Abstract
Rapid melting and solidification cycle during additive manufacturing provides a non-equilibrium environment that generates a large amount of internal defects, including dislocations, precipitations, and solute heterogeneity. These internal defects not only enhance the strength of materials by interacting with mobile dislocations but also reduce ductility due to coherency loss. To minimize the coherency loss from internal defects, defect size control in the additively manufactured products becomes an important issue. In this work, the high strength-ductility combination of additively manufactured carbon-doped CoCrFeMnNi is achieved by designing nano-scale solute heterogeneities in the matrix. The CoCrFe-MnNi solid-liquid two-phase region and interstitial carbon promote Mn and Ni segregation at cell networks and nano-sized precipitations, respectively. Laser scan speed during additive manufacturing determines the solidification rate that controls the solute cell network size. The MnNi co-segregated solute network not only interacts with dislocations but also induces strong back-stress hardening that contributes to achieving similar to 900 MPa yield strength with similar to 30% elongation which combination is significantly larger than the recent additively manufactured high-entropy alloys. This work demonstrates the importance of heterogeneity control in the additively manufactured materials to gain outstanding mechanical properties.
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Kim, Jung Gi
대학원 (나노신소재융합공학과)
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