Solidification microstructure in a supercooled binary alloy

[1] Herlach DM. Non-equilibrium solidification of under-cooled metallic melts. Key Eng Mater. 1993;81:83–94. HerlachDM Non-equilibrium solidification of under-cooled metallic melts Key Eng Mater 1993 81 83 94 10.4028/www.scientific.net/KEM.81-83.83 Search in Google Scholar

[2] Castle EG, Mullis AM, Cochrane RF. Mechanism selection for spontaneous grain refinement in undercooled metallic melts. ActaMaterialia. 2014;77:76–84. CastleEG MullisAM CochraneRF Mechanism selection for spontaneous grain refinement in undercooled metallic melts ActaMaterialia 2014 77 76 84 10.1016/j.actamat.2014.05.043 Search in Google Scholar

[3] Liu N, Liu F, Yang G, Chen Y, Chen D, Yang C, et al. Grain refinement of undercooled single-phase Fe70Co30 alloys. Phys B. 2007;387:151–5. LiuN LiuF YangG ChenY ChenD YangC Grain refinement of undercooled single-phase Fe70Co30 alloys Phys B 2007 387 151 5 10.1016/j.physb.2006.03.101 Search in Google Scholar

[4] Xu XL, Chen YZ, Liu F. Recrystallization mechanism of grain refinement in hypercooled single phase alloys. JCryst Growth. 2013;377:153–9. XuXL ChenYZ LiuF Recrystallization mechanism of grain refinement in hypercooled single phase alloys JCryst Growth 2013 377 153 9 10.1016/j.jcrysgro.2013.05.016 Search in Google Scholar

[5] Lu SY, Li JF, Zhou YH. Grain refinement in the solidification of undercooled Ni–Pd alloys. JCryst Growth. 2007;309:103–11. LuSY LiJF ZhouYH Grain refinement in the solidification of undercooled Ni–Pd alloys JCryst Growth 2007 309 103 11 10.1016/j.jcrysgro.2007.09.005 Search in Google Scholar

[6] Horvay G. The tension field created by a spherical nucleus freezing into its less dense undercooled melt. Int J Heat Mass Transfer. 1965;8:195–243. HorvayG The tension field created by a spherical nucleus freezing into its less dense undercooled melt Int J Heat Mass Transfer 1965 8 195 243 10.1016/0017-9310(65)90110-9 Search in Google Scholar

[7] Li JF, Lü YL, Yang GC, Zhao YH. Directional solidification of undercooled melt. Prog Nat Sci. 1997;7:98–103. LiJF LüYL YangGC ZhaoYH Directional solidification of undercooled melt Prog Nat Sci 1997 7 98 103 Search in Google Scholar

[8] Willnecker R, Herlach DM, Feuerbacher B. Grain refinement induced by a critical crystal growth velocity in undercooled melts. Appl Phys Lett. 1990;56:324–6. WillneckerR HerlachDM FeuerbacherB Grain refinement induced by a critical crystal growth velocity in undercooled melts Appl Phys Lett 1990 56 324 6 10.1063/1.103289 Search in Google Scholar

[9] Xu XL, Liu F. Recrystallization and twinning in rapidly solidified nickel based alloys without man-made plastic deformation. J Alloys Compd. 2014;615:156–62. XuXL LiuF Recrystallization and twinning in rapidly solidified nickel based alloys without man-made plastic deformation J Alloys Compd 2014 615 156 62 10.1016/j.jallcom.2014.06.099 Search in Google Scholar

[10] Karma A. Model of grain refinement in solidification of undercooled melts. Int J Non-Equilibrium Process. 1998;11:201–33. KarmaA Model of grain refinement in solidification of undercooled melts Int J Non-Equilibrium Process 1998 11 201 33 Search in Google Scholar

[11] Liu F, Gencang Y. Stress-induced recrystallization mechanism for grain refinement in highly undercooled superalloy. JCryst Growth. 2001;231:295–305. LiuF GencangY Stress-induced recrystallization mechanism for grain refinement in highly undercooled superalloy JCryst Growth 2001 231 295 305 10.1016/S0022-0248(01)01438-5 Search in Google Scholar

[12] Liu F, Yang GC. Rapid solidification of highly under-cooled bulk liquid superalloy: recent developments, future directions. Int Mater Rev. 2006;51:145–70. LiuF YangGC Rapid solidification of highly under-cooled bulk liquid superalloy: recent developments, future directions Int Mater Rev 2006 51 145 70 10.1179/174328006X102484 Search in Google Scholar

[13] Boettinger WJ, Coriell SR, Trivedi R. In: Mehrabian R, Parrish PA editors. Rapid solidification processing: principles and technologies IV. Baton Rouge, LA: Claitor's Pulishing Division; 1988. pp. 13–18. BoettingerWJ CoriellSR TrivediR In: MehrabianR ParrishPA editors. Rapid solidification processing: principles and technologies IV Baton Rouge, LA Claitor's Pulishing Division 1988 13 18 Search in Google Scholar

[14] Zhang T, Liu F, Wang HF, Yang GC. Grain refinement in highly undercooled solidification of Ni85Cu15 alloy melt: Direct evidence for recrystallization mechanism. ScriptaMaterialia. 2010;63:43–6. ZhangT LiuF WangHF YangGC Grain refinement in highly undercooled solidification of Ni85Cu15 alloy melt: Direct evidence for recrystallization mechanism ScriptaMaterialia 2010 63 43 6 10.1016/j.scriptamat.2010.03.006 Search in Google Scholar

[15] Yang W, Liu F, Liu H, Wang HF, Yang GC, Zhou YH. Numerical description for the recalescence of bulk-undercooled Cu70Ni30 alloy. JCryst Growth. 2009;311:3225–30. YangW LiuF LiuH WangHF YangGC ZhouYH Numerical description for the recalescence of bulk-undercooled Cu70Ni30 alloy JCryst Growth 2009 311 3225 30 10.1016/j.jcrysgro.2009.03.030 Search in Google Scholar

[16] Wang HF, Feng LI, Kang WA, Zhai HM. Effect of back diffusion on overall solidification kinetics of under-cooled single-phase solid-solution alloys. Trans Nonferrous Metals Society of China. 2012;22:642–6. WangHF FengLI KangWA ZhaiHM Effect of back diffusion on overall solidification kinetics of under-cooled single-phase solid-solution alloys Trans Nonferrous Metals Society of China 2012 22 642 6 10.1016/S1003-6326(11)61226-0 Search in Google Scholar

[17] Xu XL, Chen YZ, Liu F. Evidence of recrystallization mechanism of grain refinement in hypercooled Co80Pd20 alloys. Mater Lett. 2012;81:73–5. XuXL ChenYZ LiuF Evidence of recrystallization mechanism of grain refinement in hypercooled Co80Pd20 alloys Mater Lett 2012 81 73 5 10.1016/j.matlet.2012.04.042 Search in Google Scholar

[18] Yang W, Xu ZF, Li WJ, Cai CC, Li S, Liu F, et al. Comparisons of grain refinement and recalescence behavior during the rapid solidification of undercooled Cu–Co and Cu–Ni alloys. Phys B. 2011;406:3710–4. YangW XuZF LiWJ CaiCC LiS LiuF Comparisons of grain refinement and recalescence behavior during the rapid solidification of undercooled Cu–Co and Cu–Ni alloys Phys B 2011 406 3710 4 10.1016/j.physb.2011.06.077 Search in Google Scholar

[19] Xu XL, Liu F. Crystal growth due to recrystallization upon annealing rapid solidification microstructures of deeply undercooled single phase alloys quenched before recalescence. Cryst Growth Des. 2014;14:2110–4. XuXL LiuF Crystal growth due to recrystallization upon annealing rapid solidification microstructures of deeply undercooled single phase alloys quenched before recalescence Cryst Growth Des 2014 14 2110 4 10.1021/cg500176t Search in Google Scholar