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Functionally graded structure of a nitride-strengthened Mg2Si-based hybrid compositeopen access

Authors
Yang, JeonghoHeogh, WoongbeomJu, HogiKang, SukhyunJang, Tae-SikJung, Hyun-DoJahazi, MohammadHan, Seung ChulPark, Seong JeKim, Hyoung SeopBose, SusmitaBandyopadhyay, AmitJun, Martin Byung-GukKim, Young WonKim, Dae-kyeomAdvincula, Rigoberto C.Aranas, ClodualdoKim, Sang Hoon
Issue Date
Mar-2024
Publisher
National Engineering Research Center for Magnesium Alloys of China, Chongqing University
Keywords
Both the thermal diffusion- and chemical reaction-based metallurgy; Compositional gradient; Functionally graded structure; Laser powder bed fusion; Mg2Si-SiC/nitride hybrid composite; Wear resistance
Citation
Journal of Magnesium and Alloys, v.12, no.3, pp 1239 - 1256
Pages
18
Indexed
SCIE
SCOPUS
Journal Title
Journal of Magnesium and Alloys
Volume
12
Number
3
Start Page
1239
End Page
1256
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/211142
DOI
10.1016/j.jma.2024.03.008
ISSN
2213-9567
2213-9567
Abstract
The ex-situ incorporation of the secondary SiC reinforcement, along with the in-situ incorporation of the tertiary and quaternary Mg3N2 and Si3N4 phases, in the primary matrix of Mg2Si is employed in order to provide ultimate wear resistance based on the laser-irradiation-induced inclusion of N2 gas during laser powder bed fusion. This is substantialized based on both the thermal diffusion- and chemical reaction-based metallurgy of the Mg2Si–SiC/nitride hybrid composite. This study also proposes a functional platform for systematically modulating a functionally graded structure and modeling build-direction-dependent architectonics during additive manufacturing. This strategy enables the development of a compositional gradient from the center to the edge of each melt pool of the Mg2Si–SiC/nitride hybrid composite. Consequently, the coefficient of friction of the hybrid composite exhibits a 309.3% decrease to –1.67 compared to –0.54 for the conventional nonreinforced Mg2Si structure, while the tensile strength exhibits a 171.3% increase to 831.5 MPa compared to 485.3 MPa for the conventional structure. This outstanding mechanical behavior is due to the (1) the complementary and synergistic reinforcement effects of the SiC and nitride compounds, each of which possesses an intrinsically high hardness, and (2) the strong adhesion of these compounds to the Mg2Si matrix despite their small sizes and low concentrations.
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