References
- B. Cantor, I.T.H. Chang, P. Knight, and A.J.B. Vincent, Microstructural development in equiatomic multicomponent alloys. Mater. Sci. Eng. A 375-377 (2004), pp. 213–218.
- B.S. Murty, J.-W. Yeh, and S. Ranganathan, High-Entropy Alloys, 1st ed., Elsevier, Amsterdam, 2014.
- D.B. Miracle, and O.N. Senkov, A critical review of high entropy alloys and related concepts. Acta Mater. 122 (2017), pp. 448–511.
- Y. Lu, Y. Dong, S. Guo, L. Jiang, H. Kang, T. Wang, B. Wen, Z. Wang, J. Jie, Z. Cao, H. Ruan, and T. Li, A promising new class of high-temperature alloys: eutectic high entropy alloys. Sci. Rep 4 (2014), pp. 1–5.
- K.M. Youssef, A.J. Zaddach, C. Niu, D.L. Irving, and C.C. Koch, A novel low density, high hardness, high-entropy alloy with close-packed single-phase nanocrystalline structures. Mater. Res. Lett 3 (2015), pp. 95–99.
- S. Sohn, Y. Liu, J. Liu, P. Gong, S.P. Rodel, A. Blatter, B.E. Scanley, C.C. Broadbridge, and J. Schroers, Noble metal high entropy alloys. Scripta. Mater 126 (2017), pp. 29–32.
- Y.F. Ye, Q. Wang, J. Lu, C.T. Liu, and Y. Yang, High-entropy alloy: challenges and prospects. Mater. Today 19 (2016), pp. 349–362.
- H. Song, F. Tian, and D. Wang, Thermodynamic properties of refractory high entropy alloys. J. Alloy. Compd 682 (2016), pp. 773–777.
- H.W. Yao, J.W. Qiao, J.A. Hawk, H.F. Zhou, M.W. Chen, and M.C. Gao, Mechanical properties of refractory high-entropy alloys: experiments and modeling. J. Alloy. Compd 696 (2017), pp. 1139–1150.
- Z. Wang, Q. Fang, J. Li, B. Liu, and Y. Liu, Effect of lattice distortion on solid solution strengthening of BCC high-entropy alloys. J. Mater. Sci. Technol 34 (2018), pp. 349–354.
- O.N. Senkov, C. Woodward, and D.B. Miracle, Microstructure and properties of aluminum-containing refractory high-entropy alloys. JOM 66 (2014), pp. 2030–2042.
- Y.V.R.K. Prasad, H.L. Gegel, S.M. Doraivelu, J.C. Malas, J.T. Morgan, K.A. Lark, and D.R. Barker, Modeling of dynamic material behavior in hot deformation: forging of Ti-6242. Metall. Trans. A 15 (1984), pp. 1883–1892.
- S. Tan, Z. Wang, S. Cheng, Z. Liu, J. Han, and W. Fu, Processing maps and hot workability of Super304H austenitic heat-resistant stainless steel. Mater. Sci. Eng. A 517 (2009), pp. 312–315.
- Y. Dong, C. Zhang, G. Zhao, Y. Guan, A. Gao, and W. Sun, Constitutive equation and processing maps of an Al-Mg-Si aluminum alloy: determination and application in simulating extrusion process of complex profiles. Mater. Des 92 (2016), pp. 983–997.
- Y.V.R.K. Prasad, and T. Seshacharyulu, Processing maps for hot working of titanium alloys. Mater. Sci. Eng. A 243 (1998), pp. 82–88.
- K. Suresh, K.P. Rao, Y.V.R.K. Prasad, N. Hort, and K.U. Kainer, Study of hot forging behavior of as-cast Mg-3Al-1Zn-2Ca alloy towards optimization of its hot workability. Mater. Des 57 (2014), pp. 697–704.
- D.X. Wen, Y.C. Lin, J. Chen, J. Deng, X.M. Chen, J.L. Zhang, and M. He, Effects of initial aging time on processing map and microstructures of a nickel-based superalloy. Mater. Sci. Eng. A 620 (2015), pp. 319–332.
- J. Jiang, M. Huang, Y. Wang, G. Xiao, Y. Liu, and Y. Zhang, Unique hot deformation behavior and microstructure evolution of a dual FCC-phase CoCrCu1.2FeNi high entropy alloy. J. Alloy. Compd 876 (2021) p.160102.
- M. Liu, Y. Tian, Y. Wang, K. Wang, K. Zhang, and S. Lu, Critical conditions for dynamic recrystallization of S280 ultra-high-strength stainless steel based on work hardening rate. Metal 12 (2022), pp. 2–13.
- C.M. Sellars, and W.J. Mctegart, On the mechanism of hot deformation. Acta Metall. 14 (1966), pp. 1136–1138.
- C. Zener, and J.H. Hollomon, Effect of strain rate upon plastic flow of steel. J. Appl. Phys 15 (1944), pp. 22–32.
- F. Dong, Y. Yuan, W. Li, Y. Zhang, P.K. Liaw, X. Yuan, and H. Huang, Hot deformation behavior and processing maps of an equiatomic MoNbHfZrTi refractory high entropy alloy. J. Alloy. Compd 126 (2020) p.106921.
- S.M. Doraivelu, H.L. Gegel, J.S. Gunasekera, J.C. Malas, J.T. Morgan, and J.F. Thomas, Jr., A new yield function for compressible materials. Int. J. Mech. Sci 26 (1984), pp. 527–535.
- J.C. Malas, and V. Seetharaman, Using material behavior models to develop process control strategies. TMS 44 (1992), pp. 8–13.
- S.V.S.N. Murty, B.N. Rao, and B.P. Kashyap, Identification of flow instabilities in the processing maps of AISI 304 stainless steel. J. Mater. Process. Technol 166 (2005), pp. 268–278.
- S. Spigarelli, E. Cerri, P. Cavaliere, and E. Evangelista, An analysis of hot formability of the 6061+20% Al2O3 composite by means of different stability criteria. Mater. Sci. Eng. A 327 (2002), pp. 144–154.