Na Nie scite author profile

Na Nie

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27Citation Statements Given

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Guangxi University

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Development of novel CoCu_0.5FeNiVTi_x (x = 0, 0.5, 1, 1.5, 2) high-entropy alloys

Zhan

Nie

2018

Materials Science and Technology

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CoCu0.5FeNiVTi x ( x = 0, 0.5, 1, 1.5, 2) high-entropy alloys (HEAs) were prepared using vacuum arc melting. The microstructures, crystal structures, hardness, compressive properties and wear resistances of the alloys were studied. The alloys always contained face-centred cubic (FCC) and body-centred cubic (BCC) solid solution regardless of the increase in Ti content. The microstructure of alloys exhibited typical dendritic characteristics, which were more and more unapparent with the increase in the Ti content. The alloys with a high content of Ti had a high compressive strength and low ductility. Owing to the formation of nano-precipitates and BCC as the major phase, the CoCu0.5FeNiVTi1 alloy exhibited the highest compressive strength of 2747 MPa and a plastic strain limit of 7.4%. As the content of Ti was increased, the wear resistance of CoCu0.5FeNiVTi x alloys displayed a rapid increase and reached the highest value when x = 1, and finally decreased. Because of the large volume fraction of BCC, the CoCu0.5FeNiVTi1 alloy exhibited high hardness so exhibiting the best wear resistance. Adhesive wear and abrasive wear dominated the wear behaviour of CoCu0.5FeNiVTi x alloys during sliding against SUJ2 steel.

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The different influences of the two incorporation sites of B atoms on the mechanical and thermodynamic properties of B2–ZrCu compounds: a first-principle calculation

Guo

Zhan

Nie

2017

Philosophical Magazine

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Na Nie

Development of novel CoCu_0.5FeNiVTi_x (x = 0, 0.5, 1, 1.5, 2) high-entropy alloys

The different influences of the two incorporation sites of B atoms on the mechanical and thermodynamic properties of B2–ZrCu compounds: a first-principle calculation

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Na Nie

Development of novel CoCu0.5FeNiVTix (x = 0, 0.5, 1, 1.5, 2) high-entropy alloys

The different influences of the two incorporation sites of B atoms on the mechanical and thermodynamic properties of B2–ZrCu compounds: a first-principle calculation

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Development of novel CoCu_0.5FeNiVTi_x (x = 0, 0.5, 1, 1.5, 2) high-entropy alloys