References
- Zhang Y., Zuo T. T., Tang Z., Gao M. C., Dahmen K. A., Liaw P. K. and Lu Z. P.: ‘Microstructures and properties of high-entropy alloys’, Prog. Mater. Sci., 2014, 61, 1–93.
- Tsai K. -Y., Tsai M. -H. and Yeh J. W.: ‘Sluggish diffusion in Co–Cr–Fe–Mn–Ni high-entropy alloys’, Acta Mater., 2013, 61, 4887–4897.
- Miracle D. B., Miller J. D., Senkov O. N., Woodwart C., Uchic M. D. and Tiley J.: ‘Exploration and development of high entropy alloys for structural applications’, Entropy, 2014, 16, 494–525.
- Senkov O. N., Wilks G. B., Miracle D. B., Chuang C. P. and Liaw P. K.: ‘Refractory high-entropy alloys’, Intermetallics, 2010, 18, 1758–1765.
- Senkov O. N., Wilks G. B., Scott J. M. and Miracle D. B.: ‘Mechanical properties of Nb25Mo25Ta25W25 and V20Nb20Mo20Ta20W20 refractory high entropy alloys’, Intermetallics, 2011, 19, 698–704.
- Senkov O. N., Scott J. M., Senkova S. V., Meisenkothen F., Miracle D. B. and Woodwart C. F.: ‘Microstructure and elevated temperature properties of a refractory TaNbHfZrTi alloy’, J. Mater. Sci., 2012, 47, 1062–1074.
- Senkov O. N., Senkova S. V., Woodwart C. and Miracle D. B.: ‘Low-density, refractory multi-principal element alloys of the Cr–Nb–Ti–V–Zr system: microstructure and phase analysis’, Acta Mater., 2013, 61, 1545–1557.
- Senkov O. N., Senkova S. V., Woodwart C. and Miracle D. B.: ‘Mechanical properties of low-density, refractory multi-principal element alloys of the Cr–Nb–Ti–V–Zr system, Mater’, Sci. Eng. A, 2013, A565, 51–62.
- Senkov O. N., Woodwart C. and Miracle D. B.: ‘Microstructure and properties of aluminum-containing refractory high-entropy alloys’, JOM, 2014, 66, 2030–2042.
- Senkov O. N., Senkova S. V. and Woodwart C.: ‘Effect of aluminum on the microstructure and properties of two refractory high-entropy alloys’, Acta Mater., 2014, 68, 214–228.
- Couzinié J. P., Dirras G., Perrière L., Chauveau T., Leroy E., Champion Y. and Guillot I.: ‘Microstructure of a near-equimolar refractory high-entropy alloy’, Mater. Lett., 2014, 126, 285–287.
- Senkov O. N. and Woodwart C.: ‘Microstructure and properties of a refractory NbCrMo0.5Ta0.5TiZr alloy’, Sci. Eng. A, 2011, A529, 311–320.
- Senkov O. N., Senkova S. V., Dimiduk D. M., Woodwart C. and Miracle D. B.: ‘Oxidation behavior of a refractory NbCrMo0.5Ta0.5TiZr alloy’, J. Mater. Sci., 2012, 47, 6522–6534.
- Liu C. M., Wang H. M., Zhang S. Q., Tang H. B. and Zhang A. L.: ‘Microstructure and oxidation behavior of new refractory high entropy alloys’, J. Alloys Compd., 2014, 583, 162–169.
- Lilensten L., Couzinié J. P., Perrière L., Bourgon J., Emery N. and Guillot I.: ‘New structure in refractory high-entropy alloys’, Mater. Lett., 2014, 132, 123–125.
- Wu Y. D., Cai Y. H., Wang T., Si J. J., Zhu J., Wang Y. D. and Hui X. D.: ‘A refractory Hf25Nb25Ti25Zr25 high-entropy alloy with excellent structural stability and tensile properties’, Mater. Lett., 2014, 130, 277–280.
- Poletti M. G., Fiore G., Szost B. A. and Battezzati L.: ‘Search for high entropy alloys in the X-NbTaTiZr systems (X = Al,Cr,V,Sn)’, J. Alloys Compd., 2014, 620, 283–288.
- Stepanov N. D., Shaysultanov D. G., Salishchev G. A. and Tikhonovsky M. A.: ‘Structure and mechanical properties of a light-weight AlNbTiV high entropy alloy’, Mater. Lett., 2015, 142, 153–155.
- Wang W. -R., Wang W. -L., Wang S. -C., Tsai Y. -C., Lai C. -H. and Yeh J. -W.: ‘Effects of Al addition on the microstructure and mechanical property of AlxCoCrFeNi high-entropy alloys’, Intermetallics, 2012, 26, 44–51.
- He J. Y., Liu W. H., Wang H., Wu Y., Liu X. J., Nieh T. G. and Lu Z. P.: ‘Effects of Al addition on structural evolution and tensile properties of the FeCoNiCrMn high-entropy alloy system’, Acta Mater., 2014, 62, 105–113.
- Yeh J. -W., Chen S. -K., Lin S-J., Gan J. -Y., Chin T. -S., Shun T. -T., Tsau C. -H. and Chang S. -Y.: ‘Nanostructured high-entropy alloys with multiple principle elements: novel alloy design concepts and outcomes’, Adv. Eng. Mater., 2004, 6, (8), 299–303.
- Hume-Rothery W.: ‘The structure of metals and alloys’, 1st edn; 1936, London, Institute of Metals.
- http://en.wikipedia.org/wiki/Chemical_element.
- Singh S., Wanderka N., Murty B. S., Glatzel U. and Banhart J.: ‘Decomposition in multi-component AlCoCrCuFeNi high-entropy alloy’, Acta Mater., 2011, 59, 182–190.
- Takeuchi A. and Inoue A.: ‘Mixing enthalpy of liquid phase calculated by Miedema's scheme and approximated with sub-regular solution model for assessing forming ability of amorphous and glassy alloys’, Intermetallics, 2010, 18, 1779–1789.
- Otto F., Yang Y., Bei H. and George E. P.: ‘Relative effects of enthalpy and entropy on the phase stability of equiatomic high-entropy alloys’, Acta Mater., 2013, 61, 2628–2638.
- http://www.springermaterials.com/docs/index.html.
- Zhang Y., Zhou Y. J., Lin J. P., Chen G. L. and Liaw P. K.: ‘Solid-solution phase formation rules for nulti-component alloys’, Adv. Eng. Mater., 2008, 10, (6), 534–538.
- Yang X. and Zhang Y.: ‘Prediction of high-entropy stabilized solid-solution in multi-component alloys’, Mater. Chem. Phys., 2012, 132, 233–238.
- Guo S., Ng C., Lu J. and Lu C. T.: ‘Effect of valence electron concentration on stability of fcc or bcc phase in high entropy alloys’, J. Appl. Phys., 2011, 109, 103505.
- Dong Y., Lu Y., Jiang L., Wang T. and Li T.: ‘Effects of electro-negativity on the stability of topologically close-packed phase in high entropy alloys’, Intermetallics, 2014, 52, 105–109.
- Guo S. and Liu C. T.: ‘Phase stability in high entropy alloys: formation of solid-solution phase or amorphous phase’, Prog. Nat. Sci.: Mater. Int., 2011, 21, 433–446.
- Salishchev G. A., Tikhonovsky M. A., Shaysultanov D. G., Kuznetsov A. V., Kolodiy I. V., Tortika A. S. and Senkov O. N.: ‘Effect of Mn and V on structure and mechanical properties of high-entropy alloys based on CoCrFeNi system’, J. Alloys Compd., 2014, 591, 11–21.
- Yang X., Chen S. Y., Cotton J. D. and Zhang Y.: ‘Phase stability of low-density, multiprincipal component alloys containing aluminum, magnesium, and lithium’, JOM, 2014, 66, (10), 2009–2020.
- Otto F., Dlouhy A., Somsen C., Bei H., Eggeler G. and George E. P.: ‘The influences of temperature and microstructure on the tensile properties of a CoCrFeMnNi high-entropy alloy’, Acta Mater., 2013, 61, 5743–5755.
- Senkov O. N., Scott J. M., Senkova S. V., Miracle D. B. and Woodwart C. F.: ‘Microstructure and room temperature properties of a high-entropy TaNbHfZrTi alloy’, J. Alloys and Compd., 2011, 509, 6043–6048.
- Liu C. T., Zhu J. H., Brady M. P., McKamey C. G. and Pike L. M.: ‘Physical metallurgy and mechanical properties of transition-metal Laves phase alloys’, Intermetallics, 2000, 8, 1119–1129.