Open Access
MATEC Web Conf.
Volume 329, 2020
International Conference on Modern Trends in Manufacturing Technologies and Equipment: Mechanical Engineering and Materials Science (ICMTMTE 2020)
Article Number 02005
Number of page(s) 8
Section Materials Science
Published online 26 November 2020
  1. B. Cantor, I.T.H. Chang, P. Knight, A.J.B. Vincent, Microstructural development in equiatomic multicomponent alloys, Materials Science and Engineering: A : Elsevier, 375, pp. 213–218 (2004) [Google Scholar]
  2. F. Otto, The influences of temperature and microstructure on the tensile properties of a CoCrFeMnNi high-entropy alloy / F. Otto, A. Dlouhy, H. Bei, Acta Material, vol. 61, pp. 2628-2638 (2013) [CrossRef] [Google Scholar]
  3. C-M. Lin, H-L. Tsai, Equilibrium phase of high-entropy FeCoNiCrCu0.5 alloy at elevated temperature, J Alloys Compd., Vol. 489, pp. 619-622 (2010) [Google Scholar]
  4. M-R. Chen, S-J. Lin, J-W. Yeh, M-H. Chuang, S-K. Chen, Y-S. Huang, Effect of vanadium addition on the microstructure, hardness, and wear resistance of Al0.5CoCrCuFeNi high-entropy alloy, Metall Mater Trans, vol. A 37(5), pp. 1363-1369 (2006) [Google Scholar]
  5. A.V. Kuznetsov, D.G. Shaysultanov, N.D. Stepanov, G.A. Salishchev, O.N. Senkov, Tensile properties of an AlCrCuNiFeCo high-entropy alloy in as-cast and wrought conditions, Materials Science and Engineering, vol. 533, pp. 107-118 (2012) [Google Scholar]
  6. J.W. Yeh, Recent progress in high-entropy alloys, Annales de Chimie Science des Material, vol. 31, pp. 633-648 (2006) [Google Scholar]
  7. M.V. Karpets, O.M. Maliuchenko, Properties of a multicomponent high-entropy alloy AlCrFeCoNi doped with copper, Problems of friction and wear, vol. 2., pp. 103-111 (2004) [Google Scholar]
  8. Y. Zhang, T.T. Zuo, Z. Tang, M.C. Gao, K.A. Dahmen, P.K. Liaw, Z-P. Lu, Microstructures and properties of high-entropy alloys, Progress in Materials Science, vol. 61, pp. 1-93 (2014) [Google Scholar]
  9. Z.P. Lu, H. Wang, M.W. Chen, I. Baker, J.W. Yeh, An assessment on the future development of high-entropy alloys: Summary from a recent workshop, Intermetallic, vol. 66, pp. 67-76 (2015) [Google Scholar]
  10. A.D. Pogrebnjak, A.A. Bagdasaryan, I.V. Yakushchenko, V.M. Beresnev, The structure and properties of high-entropy alloys and nitride coatings based on them, Russian Chemical Reviews, Rev. 83 (11), pp. 1027-1061 (2014) [Google Scholar]
  11. S.A. Firstov, Superhard coatings from high-entropy alloys, Science and innovation, Vol. 9, pp. 32-39 (2013) [Google Scholar]
  12. B. He, The Phase Evolution and Property of FeCoCrNiAlTix High-Entropy Alloying Coatings on Q253 via Laser Cladding, Coatings, Vol.7, pp. 157 (2017) [Google Scholar]
  13. A.M. Kadyrmetov, D.A. Popov, A.V. Vikulin, V.I. Voronetsky, R.V. Stegantsev Prospects of obtaining multicomponent coatings by atmospheric plasma spraying, Voronezh scientific and technical Bulletin, Vol. 4 (26), pp. 46-54 (2018) [Google Scholar]
  14. A.M. Kadyrmetov, S.N. Sharifullin, A.S. Pustovalov,Mathematical modeling of plasma deposition and hardening of coatings-switched electrical parameters, Journal of Physics: Conference Series 669 012052: VII Conference on Low Temperature Plasma in the Processes of Functional Coating Preparation IOP Publishing, pp. 1-5 (2016) [Google Scholar]

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