References |
Tung, C.-C., Yeh, J.-W., Shun, T.-T., Chen, S.-K., Huang, Y.-S., Chen, H.-C., On the elemental effect of AlCoCrCuFeNi high-entropy alloy system (2007) Mater. Letters, 61, pp. 1-5; Wang, X.F., Zhang, Y., Qiao, Y., Chen, G.L., Novel microstructure and properties of multicomponent CoCrCuFeNiTix alloys (2007) Intermetallics, 15, pp. 357-362; Tung, C.-C., Chen, Y.-L., Chen, S.-K., Yeh, J.-W., Shun, T.-T., Tsau, C.-H., Lin, S.-J., Chang, S.-Y., Microstructure characterization of AlxCoCrCuFeNi high-entropy alloy system with multiprincipal elements (2005) Met. Mater. Trans. A, 36 (4), pp. 881-893; Firstov, S.A., Gorban', V.F., Krapivko, N.A., Pechkovskii, E.P., Hardening and mechanical properties of cast high-entropy alloys (2011) Kompozity I Nanostruktury, 2, pp. 5-20; Sobol', O.V., Andreev, A.A., Gorban', V.F., Krapivka, N.A., Stolbovoi, V.A., Serdyuk, I.V., Fil'chikov, V.E., Reproducibility of the single-phase structural state of the multielement high-entropy Ti-V-Zr-Nb-Hf system and related superhard nitrides formed by the vacuum-arc method (2012) Tech. Phys. Let., 38 (7), pp. 616-619; Ostrovskii, O.I., Grigoryan, V.A., Vishkarev, A.F., (1988) Properties of Metallic Melts, , Moscow: Metallurgiya; Glazov, V.M., Aivazov, A.A., (1980) Melting Entropy of Metals and Semiconductors, , Moscow: Metallurgiya; Ziner, K., Role of entropy in the phase stabilization (1970) Phase Stability in Metals and Alloys, pp. 96-110. , Moscow: Mir; Baum, B.A., Khasin, G.A., Tyagunov, G.V., (1984) Liquid Steel, , Moscow: Metallurgiya; Baum, B.A., (1979) Metallic Liquids, , Moscow: Nauka; Korzhavina Chikova, O.A., Viscosity and electrical resistance of Al-Si melts, and the effect of their structural state on the cast metal structure (1991) Rasplavy, 1, pp. 10-17; Popel', P.S., Chikova, O.A., Brodova, I.G., Polents, I.V., Specific features of the structure formation upon crystallization of Al-In alloys (1992) Fiz. Met. Metalloved., 9, pp. 111-115; Tyaguniv, G.V., Tsepelev, V.S., Kushnir, M.N., Yakovlev, G.N., Equipment for measuring the kinematic viscosity of metallic melts (1980) Zavod. Lab., 10, pp. 919-920; Povodator, A.M., Konashkov, V.V., V'yukhin, V.V., Tsepelev, V.S., Method of contactless measurement of the viscosity of high-temperature metallic melts (2010) Byul. Izobret., 11; Povodator, A.M., Konashkov, V.V., V'yukhin, V.V., Tsepelev, V.S., Equipment for studies of high-temperature metallic melts (2011) Byul. Izobret., 14; Brodova, I.G., Popel', P.S., Barbin, N.M., Vatolin, N.A., (2005) Initial Melts as the Basis for the Formation of the Structure and Properties of Aluminum Alloys, , Yekaterinburg: UrO RAN; Popel', P.S., Phase transition or decomposition of metastable aggregates? (1985) Izv. Vyssh. Uchebn. Zaved., Chern. Metall., 5, pp. 34-41 |