Rare Met.
 2023
DOI: 10.1007/s12598-022-02205-9
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Microstructure and deformation mechanism of dual-phase Al0.5CoCrNiFe high-entropy alloy

Yonggang Tong
1
,
N Tian
2
,
Hongfeng Huang
3
et al.
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Cited by 9 publications
(1 citation statement)
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“…HEAs can be divided into FCC-type (face-centered cubic structure), 34 BCC-type (body-centered cubic structure), 35 HCP-type (hexagonal close-packed structure), 36 amorphous type and intermetallic compound type. 37,38 Different atoms randomly occupy the lattice position to form a simple solid solution (Fig.…”
Section: Properties Of Heasmentioning
confidence: 99%

Optimization strategies of high-entropy alloys for electrocatalytic applications

Xiao,
Wang,
Guan
2023
Chem. Sci.
64
0
13
0
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“…HEAs can be divided into FCC-type (face-centered cubic structure), 34 BCC-type (body-centered cubic structure), 35 HCP-type (hexagonal close-packed structure), 36 amorphous type and intermetallic compound type. 37,38 Different atoms randomly occupy the lattice position to form a simple solid solution (Fig.…”
Section: Properties Of Heasmentioning
confidence: 99%

Optimization strategies of high-entropy alloys for electrocatalytic applications

Xiao,
Wang,
Guan
2023
Chem. Sci.
64
0
13
0
View full textAdd to dashboardCite
show abstract

Mechanical response and plastic deformation in single- and dual-phase polycrystalline FeNiAl alloys: molecular dynamics analysis

Ren,
Gui,
Gao
et al. 2024
J Mater Sci
1
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0
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Simultaneously enhancing erosion and compression resistance: designing AlCoCrFeNi high-entropy alloy strengthened Ag-based contacts

Xue,
Wang,
Nie
et al. 2024
Rare Met.
4
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