High entropic coatings FeCrNiTiZrAl and their properties

Yurov, V.M.; Berdibekov, A.T.; Belgibekov, N.A.; Makhanov, K.M.

doi:10.31489/2021ph3/101-114

Cited by 2 publications

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“…In our proposed empirical model [13], the anisotropy of the surface energy and the thickness of the surface layer of the high-entropy FeCrNiTiZrAl alloy are calculated. The thickness of the surface layer of this alloy is about 2 nm, which is an order of magnitude greater than the thickness of the surface layer of complex crystals, but is of the same order of magnitude as that of metallic glasses.…”

Section: Introductionmentioning

confidence: 99%

Microhardness and wear resistance of a high-entropy coating FeCrNiTiZrAl

Yurov

Eremin

Guchenko

2022

J. Phys.: Conf. Ser.

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In this article, the microhardness and wear resistance of the high-entropy FeCrNiTiZrAl alloy are studied on model specimens and on turbine blades made of 20Kh13 steel. The alloy was made by mechanical alloying and subsequent annealing in a vacuum furnace. The study showed that the obtained alloy is a high-entropy alloy with a microhardness μ = 740 HV, which is at the level of the microhardness of metallic glasses, but 2-3 times higher than the microhardness of stainless steels. The friction coefficient of the FeCrNiTiZrAl coating is k = 0.06, which is 10 times less than the friction coefficient of the titanium nitride coating (k = 0.65). The wear resistance of the high-entropy FeCrNiTiZrAl coating is much higher than that of stainless steels, and it leads to the fact that the cost of titanium nitride coating on turbine blades is 2 times higher than the cost of FeCrNiTiZrAl coating, that is, the economic effect is obvious.

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Section: Introductionmentioning

confidence: 99%

Microhardness and wear resistance of a high-entropy coating FeCrNiTiZrAl

Yurov

Eremin

Guchenko

2022

J. Phys.: Conf. Ser.

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Overview of the High-Entropy Alloys Concept

Kambarov

Uazyrkhanova

Rutkowska-Gorczyca

et al. 2023

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The article presents a review of the results of research on high-entropy alloys, describing the principles of their formation, the basic concepts and properties of high-entropy alloys. The existing categories of the entropic alloys are listed. The effects resulting from the formation of high-entropy alloys are described: high entropy, lattice distortion, sluggish diffusion and cocktail effects. It is noted that the traditional thermodynamic representations for multicomponent alloys require additions. It is also noted that the application of Hume-Rothery rules to predict the phase composition of high-entropy alloys shows some difficulties, since it is difficult to select a large number of elements having the same type of lattice and valence. The results of the analysis of a number of parameters and conditions which, according to the researchers' opinion, affect the structural state created by high-entropy alloys, taking into account which could allow to correctly predict the formation of structures in high-entropy. Analysis of the literature data has shown that at present there is no universal parameter that could allow the correct prediction of the formation of structures in multicomponent alloys systems. Methods for the preparation of powders of high entropy alloys are presented. The results of frequently used methods of obtaining coatings on the basis of high-entropy alloys, such as laser cladding, magnetron sputtering, electrochemical deposition and thermal spraying are reviewed. Disadvantages of obtaining coatings methods are described.

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High entropic coatings FeCrNiTiZrAl and their properties

Cited by 2 publications

References 0 publications

Microhardness and wear resistance of a high-entropy coating FeCrNiTiZrAl

Microhardness and wear resistance of a high-entropy coating FeCrNiTiZrAl

Overview of the High-Entropy Alloys Concept

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