Review of alloys developed using the entropy approach

OBRABOTKAMETALLOV MATERIAL SCIENCE Vol. 23 No. 2 2021 138. Vinnik D.A., Trofimov E.A., Zhivulin V.E., Zaitseva O.V., Zhil’tsova T.A., Repin D.V. Obrazovanie vysokoentropiinykh oktaedricheskikh kristallov v mnogokomponentnykh oksidnykh sistemakh [Formation of high-entropy octahedral crystals in multicomponent oxide systems]. Vestnik Yuzhno-Ural’skogo gosudarstvennogo universiteta. Seriya: Khimiya = Bulletin of the South Ural state university. Series: Chemistry , 2019, vol. 11, no. 3, pp. 24–31. DOI: 10/14529/chem190303. 139. Pullar R.C. Hexagonal ferrites: a reviev of the synthesis, properties and applications of hexaferrite ceramics. Progress in Materials Science , 2012, vol. 57 (7), pp. 1191–1334. DOI: 10.1016/pmatsci.2012.04001. 140. Vinnik D., Ustinova I.A., Ustinov A.B., Gudkova S.A., Zherebtsov D.A., Trofimov E.A., Zabeivorota N.S., Mikhailov G.G., Nieva R. Millimeter-wave characterization of aluminum substituted barium lead hexaferrite single crystals grown from PbO-B2O3 flux. Ceramics International , 2017, vol. 17, pp. 15800–15804. DOI: 10.1016/j. ceramint.2017.08.145. 141. Kourov N.I., Pushin V.G., Korolev A.V., Knyazev Yu.V., Kuranova N.N., Ivchenko M.V., Ustyugov Yu.M., Vanderka N. Struktura i fizicheskie svoistva bystrozakalennogo iz rasplava vysokoentropiinogo splavaAlCrFeCoNiCu [Structure and physical properties of the high-entropy AlCrFeCoNiCu alloy rapidly quenched from the melt]. Fizika tverdogo tela = Physics of the Solid State , 2015, no. 57 (8) pp. 1579–1589. 142. Chikova O.A., Tsepelev V.S., V’yukhin V.V., Shmakova K.Yu. Kinematicheskaya vyazkost’ zhidkikh vysokoentropiinykh splavov Cu-Sn-In-Bi-Pb [Kinetic viscosity of molten high entropy alloys Cu–Sn–In–Bi–Pb]. Izvestiya vuzov. Tsvetnaya metallurgiya = Russian Journal of Non-Ferrous Metals , 2015, special issue, pp. 57–60. DOI: 10.17073/0021-3438-2015-0-57-60. (In Russian). 143. V’yukhin V.V., Chikova O.A., Tsepelev V.S. Poverkhnostnoe natyazhenie zhidkikh vysokoentropiinykh ekviatomnykh splavov sistemy Cu-Sn-In-Bi-Pb [Surface tension of liquid high-entropy equiatomic alloys of a Cu- Sn-In-Bi-Pb system]. Zhurnal fizicheskoi khimii = Russian Journal of Physical Chemistry A , 2017, vol. 91, no. 4, pp. 582–585. DOI: 10.7868/S0044453717040343. (In Russian). 144. Chikova O.A., Shmakova K.Yu., Tsepelev V.S. Opredelenie temperatur fazovykh ravnovesii vysokoentropiinykh metallicheskikh splavov viskozimetricheskimmetodom [Determination of the phase equilibrium temperature of high-entropy alloys by the viscometric method]. Metally = Russian metallurgy (Metally) , 2016, no. 2, pp. 54–59. (In Russian). 145. Chikova O.A., Tsepelev V.S., V’yukhin V.V., Shmakova K.Yu. Proektirovanie tekhnologii polucheniya vysokoentropiinykh splavov (pripoev) sistemy Cu-Ga-Pb-Sn-Bi [Planning technology for preparing high-entropy alloys (solders) of the Cu–Ga–Pb–Sn–Bi system] . Metallurg = Metallurgist , 2015, no. 5, pp. 82–86. 146. Gorbachev I.I., Popov V.V., Kats-Dem’yanets A., Popov V. ml., Eshed E. Prognozirovanie fazovogo sostava vysokoentropiinykh splavov na osnove Cr-Nb-Ti-V-Zr s pomoshch’yu CALPHAD-metoda [Prediction of the phase composition of high-entropy аlloys based on Cr–Nb–Ti–V–Zr using the calphad method]. Fizika metallov i metallovedenie = Physics of Metals and Metallography , 2019, vol. 120, no. 4, pp. 408–416. DOI: 10.1134/ S0015323019040065. (In Russian). 147. Yurchenko N.Yu. Razrabotka i issledovanie vysokoentropiinykh splavov s vysokoi udel’noi prochnost’yu na osnove sistemy Al-Cr-Nb-Ti-V-Zr. Diss. kand. tekhn. nauk [Development and research of high-entropy alloys with high specific strength based o n Al-Cr-Nb-Ti-V-Zr system. PhD eng. sci. diss.]. Belgorod, 2019. 187 p. Conflicts of Interest The authors declare no conflict of interest.  2021 The Authors. Published by Novosibirsk State Technical University. This is an open access article under the CC BY license (http://creativecommons.org/licenses/by/4.0/) .