Microstructure and fatigue damage mechanism of Fe Co Ni Al Ti Zr high-entropy alloy film by nanoscale dynamic mechanical analysis

Jinna, Liu; Xing, Zhiguo; Wang, Haidou; Cui, Xiufang; Guo, Jingjie; Xu, Bin

doi:10.1016/j.vacuum.2018.10.061

Cited by 20 publications

(2 citation statements)

References 40 publications

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“…Beyond these primary HEA definitions, several other interpretations, such as multiprincipal element alloys (MPEAs), and complex concentrated alloys (CCAs), have appeared in the literature that broadens the composition range without any implications concerning the magnitude of entropy or the types of phases [5,6]. Depending on the combinations of the elements, it has been reported that high entropy alloys (HEA) could show high resistance to corrosion [7,8], fatigue and fracture toughness [9] besides unique electrical and magnetic responses [10], which make them desirable in structural and functional materials. Due to this unique combination of the properties and the potential for designing a wide variety of new materials, interests have been directed toward high entropy alloy films and coatings for applications where corrosion and oxidation protection are strongly required.…”

Section: Introductionmentioning

confidence: 99%

Electrodeposition of High Entropy Alloy of Ni-Co-Cu-Mo-W from an Aqueous Bath

Ahmadkhaniha¹,

Kruemmling²,

Zanella³

2022

J. Electrochem. Soc.

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This study aimed to deposit high entropy alloy coatings with five different elements, Ni, Co, Cu, Mo, and W, from a single aqueous bath. The influence of pH, current density, and complex agent on the composition of deposited coating was examined. It was shown that Mo and W were codeposited mainly with Ni and Co. pH had the most impact on the codeposition of reluctant elements like Mo and W, while current density had the minimum effect. The deposited coating had a metallic, dense, and nodular morphology with configurational entropy of around 1.6R.

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Section: Introductionmentioning

confidence: 99%

Electrodeposition of High Entropy Alloy of Ni-Co-Cu-Mo-W from an Aqueous Bath

Ahmadkhaniha¹,

Kruemmling²,

Zanella³

2022

J. Electrochem. Soc.

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“…[2] And cobalt, iron and zirconium are the principal elements in amorphous alloys [3][4][5][6] and high-entropy alloys. [7][8][9] Furthermore, Hoque et al [10] have reported a two-phase magnetic Co 11 Zr 2 -Co 23 Zr 6 system and the addition of Fe can improve its magnetic and mechanical properties.…”

Section: Introductionmentioning

confidence: 99%

Thermodynamic Descriptions of the Co–Zr and Co–Fe–Zr Systems

Zhou

Wang

2021

J. Phase Equilib. Diffus.

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The Co-Fe-Zr system and its Co-Zr subsystem were optimized using the CALculation of PHAse Diagram (CALPHAD) approach. The substitutional solution model was used for describing the phases liquid, fcc_A1, bcc_A2 and hcp_A3. Two Laves phases were modeled as (Co,Fe,Zr) 2 (Co,Fe,Zr) 1 , and the phases CoFe and CoZr with the bcc_B2 crystal structure were described as the ordered one of bcc_A2 in the formula (Co,Fe,Va,Zr) 0.5 (-Co,Fe,Va,Zr) 0.5 Va 3 . With limited solubility ranges, all other phases were treated as the line compounds (Co,Fe) m Zr n . An excellent agreement between the reported and calculated results was reached. The reliable thermodynamic parameters of the Co-Fe-Zr system were acquired, which can be well applied to various thermodynamic calculations and materials design.

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Effects of Sputtering Time on Structure and Mechanical Properties of (AlCrNbSiTiV)N Coatings Deposited by High-Power Impulse Magnetron Cosputtering

Tang

Chen

et al. 2020

JOM

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Microstructure and fatigue damage mechanism of Fe Co Ni Al Ti Zr high-entropy alloy film by nanoscale dynamic mechanical analysis

Cited by 20 publications

References 40 publications

Electrodeposition of High Entropy Alloy of Ni-Co-Cu-Mo-W from an Aqueous Bath

Electrodeposition of High Entropy Alloy of Ni-Co-Cu-Mo-W from an Aqueous Bath

Thermodynamic Descriptions of the Co–Zr and Co–Fe–Zr Systems

Effects of Sputtering Time on Structure and Mechanical Properties of (AlCrNbSiTiV)N Coatings Deposited by High-Power Impulse Magnetron Cosputtering

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