热力学深过冷熔体的凝固是远离平衡的快速凝固,其凝固机制和凝固组织表现出与传统凝固不同的特点。热力学深过冷熔体凝固的非平衡效应主要表现在晶粒尺寸细化、亚稳相析出、调幅(Spinodal)分解、形成块体非晶等几个方面。在这些方面进行的探索与研究对研发新型高性能材料具有重要的理论意义和实用价值。近年来相关的研究发展较快。对在晶粒细化机制、亚稳相析出机制、调幅分解现象以及大块非晶的形成等方面研究的新进展进行了综述和分析。
The solidification of thermodynamic high undercooled melt is a kind of non-equilibrium rapid solidifi- cation, which exhibits unique solidification mechanism and microstructure characteristics compared with the conventional solidification. The non-equilibrium effects of solidification in thermodynamic high undercooled melt involve refinement of grain size, precipitation of metastable phases, spinodal decomposition and formation of bulk amorphous, etc. Researches on these aspects possess important theoretical significance and practical value for the development of new kind of high-performance materials. Related researches have progressed rapid- ly in recent years. In this paper, the research progresses on the refinement mechanism of microstructure, the precipitation mechanism of metastable phases, the phenomena of spinodal decomposition and the formation of big bulk amorphous were summarized and analyzed.
参考文献
| [1] | 任士桐,杨长林,刘峰.深过冷Fe85B15亚共晶合金晶粒的细化机制[J].材料导报,2010(10):50-52. |
| [2] | Yao KF;Zhang CQ .Fe-based bulk metallic glass with high plasticity[J].Applied physics letters,2007(6):61901-1-61901-3-0. |
| [3] | Zang, D.Y.;Wang, H.P.;Dai, F.P.;Langevin, D.;Wei, B. .Solidification mechanism transition of liquid Co-Cu-Ni ternary alloy[J].Applied physics, A. Materials science & processing,2011(1):141-145. |
| [4] | Zhang Xuefeng;Chang Pengbei;Sun Jianke et al.Study on the crystalline mechanism of SnOz nanopowders pre pared by gasification[J].Journal of Functional Materials,2007,38(34):488-491. |
| [5] | Liu N;Liu F;Yang G C et al.Nucleation and phase se lection in undercooled Fe Co melt[J].Journal of Alloys and Compounds,2009,467(1-2):L11-L15. |
| [6] | Liu, N. .Investigation on the phase separation in undercooled Cu-Fe melts[J].Journal of Non-Crystalline Solids: A Journal Devoted to Oxide, Halide, Chalcogenide and Metallic Glasses, Amorphous Semiconductors, Non-Crystalline Films, Glass-Ceramics and Glassy Composites,2012(2):196-199. |
| [7] | Z.L. Wang;D.Y. Cong;Z.H. Nie .The suppression and recovery of martensitic transformation in a Ni-Co-Mn-In magnetic shape memory alloy[J].Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics,2012(1):41-44. |
| [8] | Y.Z. Chen;F. Liu;G.C. Yang .Grain refinement of Fe_(75)Ni_(25) alloys at low undercooling[J].Materials Characterization,2008(4):412-416. |
| [9] | Haifeng Wang;Feng Liu;Gencang Yang .Experimental study of grain refinement mechanism in undercooled Ni-15at. % Cu alloy[J].Journal of Materials Research,2010(10):1963-1974. |
| [10] | Walker J L;St Pierre G R.The physical chemistry of process metallurgy(Part 2)[M].New York:Inter- science,1959:845. |
| [11] | Willnecker R;Herlaeh D M;Feuerbacher B .Grain re- finement induced by a critical crystal growth velocity in undercooled melts[J].Applied Physics Letters,1990,56(04):324-326. |
| [12] | Mullis AM.;Cochrane RF. .Grain refinement and growth instability in undercooled alloys at low undercooling[J].Journal of Applied Physics,1998(9):4905-4910. |
| [13] | Lu SY;Li JF;Zhou YH .Grain refinement in the solidification of undercooled Ni-Pd alloys[J].Journal of Crystal Growth,2007(1):103-111. |
| [14] | Liu Feng;Yang Gencang .Stress-induced recrystallization mechanism for grain refinement in highly undercooled superalloy[J].Journal of Crystal Growth,2001(1/2):295-305. |
| [15] | Zhou S Y;Hu R;Li J S et al.Stress induced deforma tion in the solidification of undercooled Cos0Pd20 alloys[J].MaterSciEngA,2011,528(03):973977. |
| [16] | Yang, W.;Liu, F.;Xu, Z.F.;Lu, B.P.;Yang, G.C. .Use of recalescence behavior analysis for the prediction of grain refinement in undercooled Cu-Ni alloy[J].Journal of Materials Science,2011(9):3101-3107. |
| [17] | Piccone T J;Wu Y;Shiohara Y et al.Dendritic growth of undercooled nickel-tin:part Ⅱ[J].Metallurgical and Materials Transactions A:Physical Metallurgy and Materials Science,1987,18:925-932. |
| [18] | Han X J;Yang C;Wei B et al.Rapid solidification of highly undercooled Ni-Cu alloys[J].Materials Science and Engineering A:Structural Materials Properties Microstructure and Processing,2001,307:35-41. |
| [19] | Kelton KF.;Lee GW.;Gangopadhyay AK.;Hyers RW.;Rathz TJ.;Rogers JR. Robinson MB.;Robinson DS. .First x-ray scattering studies on electrostatically levitated metallic liquids: Demonstrated influence of local icosahedral order on the nucleation barrier - art. no. 195504[J].Physical review letters,2003(19):5504-0. |
| [20] | Woodcock TG;Hermann R;Loser W .Development of a metastable phase diagram to describe solidification in undercooled Fe-Co melts[J].Calphad: Computer Coupling of Phase Diagrams and Thermochemistry,2007(2):256-263. |
| [21] | Yang C I;Yang G C;Liu F et al.Metastable phase formation in eutectic solidification of highly undercooled Fes3B17 alloy melt[J].Physiea B:Condensed Matter,2006,373:136-141. |
| [22] | Shao G;Tsakiropoulos P .Prediction of phase selection in rapid solidification using time dependent nucleation theory[J].Acta Metallurgiea Et Materialia,1994,42(09):2937-2942. |
| [23] | Liu N;Yang G C;Liu F .Metastable phase in under cooled Fe-Co alloy[J].Advances in Materials Research,2011,189 193:3832-3835. |
| [24] | H. P. Wang;B. Wei .Theoretical prediction and experimental evidence for thermodynamic properties of metastable liquid Fe-Cu-Mo ternary alloys[J].Applied physics letters,2008(17):171904-1-171904-3-0. |
| [25] | Baskes M I .Modified embedded-atom potentials for cu- bic materials and impurhies[J].Physical Review B:Condensed Matter,1992,46(05):2727-2742. |
| [26] | Zhou, K.;Wang, H.P.;Chang, J.;Wei, B. .Specific heat measurement of stable and metastable liquid Ti-Al alloys[J].Applied physics, A. Materials science & processing,2011(1):135-137. |
| [27] | Cahn J W;Hilliard J E .Free energy of a nonuniform system Ⅲ Nucleation in a two-component incompressi- ble fluid[J].Journal of Chemical Physics,1959,31(03):688-699. |
| [28] | BinderK;刘俊明.失稳分解[M].北京:科学出版社,1999:402. |
| [29] | Hamid Assadi;Jan Schroers .Crystal nucleation in deeply undercooled melts of bulk metallic glass forming Systems[J].Acta materialia,2002(1):89-100. |
| [30] | Cahn J .[J].Transactions of the Metallurgical Society of AIME,1968,242:166. |
| [31] | Yuen C W;Lee K L;Kui H W .Metastable liquid phase separation in undereooled molten Pd4o.sNi40.P19[J].Journal of Materials Research,1997,12(02):314-317. |
| [32] | Lee K L;Kui H W .Phase separation in undercooled moltenPds0Si2o:Part I[J].Journal of Materials Research,1999,14(09):3653-3662. |
| [33] | Li Q .Formation of bulk ferromagnetic nanostructured Fe40Ni40P14136 alloys by metastable liquid spinodal de composition[J].Science in China Series E:Technolog- ical Sciences,2009,52(07):1919-1922. |
| [34] | D. J. Branagan J. Zhou;B. E. Meacham;A. V. Sergueeva .Achieving Usable Ductility in Glassy Nanomaterials[J].Advanced Materials & Processes,2010(10):25-31. |
| [35] | Borchers C;Schroers J;Busch R .Prediction of spinodal wavelength in continuously cooled metallic liquid[J].Annalen der Physik,2009(1):4-12. |
| [36] | Cahn J W;Hilliard J E.Free energy of a nonuniform system I interfacial free energy[J].Journal of Chemical Physics,1958(02):258267. |
| [37] | X.J. Liu;X.D. Hui;G.L. Chen .Thermodynamic calculation and experimental investigation of glass formation in Zr-Ni-Ti alloy system[J].Intermetallics,2008(2):262-266. |
| [38] | D. Xu;G. Duan;W. L. Johnson .Formation and properties of new Ni-based amorphous alloys with critical casting thickness up to 5 mm[J].Acta materialia,2004(12):3493-3497. |
| [39] | Greer A L .Confusion by design[J].Nature,1993,366:303-304. |
| [40] | Chen N;Louzguine-I.uzgin D V;Inoue A .Glass forma tkm in the Pd-Si-based alloys[J].Philosophical Magazine Letters,2010,90(10):771-779. |
| [41] | Yiping Lu,Gencang Yang,Xiong Li,Yaohe Zhou.Amorphous Formation in an Undercooled Binary Ni-Si Alloy under Slow Cooling Rate[J].材料科学技术学报(英文版),2009(03):370-372. |
| [42] | Ding H Y;Li Y;Yao K F .Preparation of a Pd-Cu Si bulk metallic glass with a diameter up to llmm[J].Chinese Physics Letters,2010,27(12):126101. |
| [43] | Ke-Fu Yao;Yi-Qiang Yang;Na Chen .Mechanical properties of Pd-Cu-Si bulk metallic glass[J].Intermetallics,2007(5/6):639-643. |
| [44] | YAO KeFu,CHEN Na.Pd-Si binary bulk metallic glass[J].中国科学G辑(英文版),2008(04):414-420. |
| [45] | YAO Ke-Fu,RUAN Fang.Pd-Si Binary Bulk Metallic Glass Prepared at Low Cooling Rate[J].中国物理快报(英文版),2005(06):1481-1483. |
| [46] | Chen N;Gu I;Xie G Q .Flux-induced structural modi fieation and phase transformations in a Pd40,Ni4Si4P16,bulk-glassyalloy[J].Acta Materialia,2010,58(18):58865897. |
| [47] | M. Stoica;S. Kumar;S. Roth .Crystallization kinetics and magnetic properties of Fe_(66)Nb_4B_(30) bulk metallic glass[J].Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics,2009(1/2):632-637. |
| [48] | Nobuyuki Nishiyama;Kana Takenaka;Takeshi Wada .New Pd-based bulk glassy alloys with high glass-forming ability[J].Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics,2007(0):138-140. |
| [49] | Azumo S;Nagayama K .Amorphous formation and magnetic properties of Nd Fe-Co-A1 alloys by gas flow type levitation process[J].Materials Transactions,2006,47(11):28422845. |
上一张
下一张
上一张
下一张
计量
- 下载量()
- 访问量()
文章评分
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%