采用玻璃包覆法(fluxing)提纯和在不同温度下保温,获得了Fe40Ni40P14B6合金熔体的凝固组织,研究了过冷度对凝固组织的影响.结果表明,随着过冷度的增大,Fe40Ni40P14B6的凝固组织从亚共晶转变为共晶组织,晶粒尺寸明显减小.当过冷度超过某一临界值时,合金熔体发生Spinodal分解,形成网状结构的凝固组织并使晶粒显著细化,达到纳米尺度.在深过冷条件下,可获得块体纳米晶凝固组织.
参考文献
| [1] | F.E.Luborsky,Amorphous Metallic Alloys (London,Butterworth & Co.,1983) p.381 |
| [2] | G.Luciani,A.Costantini,F.Branda,P.Scardi,L.Lanotte,Thermal evolution of ferromagnetic metallic glasses.A study using TG(M) technique,J.Therm.Anal.Calor.,72(1),105(2003) |
| [3] | T.Watanabe,M.G.Scott,Crystallization of the amorphous alloy Fe40Ni40P14B6,J.Mater.Sci.,15,1131(1980) |
| [4] | D.M.Herlach,Non-equilibrium solidification of undercooled metallic melts,Mater.Sci.Eng.,R12,177(1994) |
| [5] | W.Kurz,R.Trivedi,Rapid solidification processing and microstructure formation,Mater.Sci.Eng.,A179/A180,46(1994) |
| [6] | M.Leonhardt,W.Loeser,H.G.Lindenkreuz,Solidification kinetics and phase formation of undercooled eutectic NiNb melts,Acta Mater.,47,2961(1999) |
| [7] | N.Wang,J.R.Gao,B.Wei,Primary phase growth within highly undercooled Cu-Ge eutectic alloys,Scripta Mater.,41,959(1999) |
| [8] | Lu Yiping,Yang Gencang,Xi Zengzhe,Wang Haipeng,Zhou Yaohe,Directional solidification of highly undercooled eutectic Ni78.6Si21.4 alloy,Mater.Lett.,59,1558(2005) |
| [9] | J.H.Perepezko,Kinetic processes in undercooled melts,Mater.Sci.Eng.,A226-228,374(1997) |
| [10] | R.Goetzinger,M.Barth,D.M.Herlach,Growth of lamellar eutectic dendrites in undercooled melts,J.Appl.Phy.,84,1643(1998) |
| [11] | HU Hanqi,The Principle of Metal Solidification (Beijing,Mechanical Industry Press,2000) p.80(胡汉起,金属凝固原理(北京,机械工业出版社,2000)p.80) |
| [12] | H.W.Kui,A.L.Greer,D.Turnbull,Formation of bulk metallic glass by fluxing,Appl.Phys.Lett.,45,615(1984) |
| [13] | J.H.Perepezko,Solidification reactions in undercooled alloys,Mater.Sci.Eng.A-Structural Materials Properties Microstructure and Processing,179,52(1994) |
| [14] | D.M.Herlach,J.Gao,D.Holland-Moritz,T.Volkmann,Nucleation and phase-selection in undercooled melts,Mater.Sci.Eng.A-Structural Materials Properties Microstructure and Processing,375,9(2004) |
| [15] | A.F.Norman,A.L.Greer,Microstructure-selection maps for droplet solidification:application to the system CuNi,Mater.Sci.Forum,179-180,707(1995) |
| [16] | G.Wilde,G.P.Gorler,R.Willnecker,Hypercooling of completely miscible alloys,Appl.Phys.Lett.,69,2995(1996) |
| [17] | MIN Naiben,The Physical Basis of Crystal Growth (Shanghai,Shanghai Science and Technology Press,1982)p.229(闵乃本,晶体生长的物理基础(上海,上海科学与技术出版社,1982)p.229) |
| [18] | J.W.Cahn,Spinodal decomposition,Trans.Metall.Soc.AIME,242,166(1968) |
| [19] | Seizo Nagasaki,Makoto Hirabayashi,A.S.Liu translated,Binary Alloy Phase-diagrams (Beijing,Metallurgical Industry Press,2002) p.153(长崎诚三,平林真编著,刘安生译,二元合金状态图集,(北京,冶金工业出版社)p.153) |
| [20] | ZHANG Changqing,YAO Kefu,Nanocrystalline structures of Fe-Ni-P-B alloy solidified at large undercooling and liquid spinodal decomposition,Acta Metallurgica Sinica,42(8),870(2006)(张长青,姚可夫,深过冷条件下Fe-Ni-P-B合金的纳米晶凝固组织与液相Spinodal分解,金属学报,42(8),870(2006)) |
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