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  4. 高温形状记忆合金的研究进展

机械工程材料, 2014, 38(1): 1-46.

高温形状记忆合金的研究进展

左舜贵 1, , 金学军 2, , 金明江 3,

1.上海交通大学材料科学与工程学院,上海200240

2.上海交通大学材料科学与工程学院,上海200240

3.上海交通大学材料科学与工程学院,上海200240

基金项目:   科技部“973”计划资助项目(2011CB706604)   国家自然科学基金资助项目(51174251)  

关键词: 高温形状记忆合金 , 形状记忆效应 , 超弹性 , 马氏体相变

Research Progress in High Temperature Shape Memory Alloys

ZUO Shun-gui 1, , JIN Xue-jun 2, , JIN Ming-jiang 3,

1.上海交通大学材料科学与工程学院,上海200240

2.上海交通大学材料科学与工程学院,上海200240

3.上海交通大学材料科学与工程学院,上海200240

Keywords: high temperature shape memory alloy (HTSMA) , shape memory effect , superelasticity , martensitic transformation

介绍了高温形状记忆合金马氏体转变温度的影响因素及其在使用过程中对性能的要求,并综述了钛镍钯/铂、镍钛锆/铪、镍锰镓等几种主要高温形状记忆合金的研究进展,最后对今后的研究方向进行了展望.

参考文献

[1] Mehrdad Zarinejad;Yong Liu .Dependence of Transformation Temperatures of NiTi-based Shape-Memory Alloys on the Number and Concentration of Valence Electrons[J].Advanced functional materials,2008(18):2789-2794.
[2] K.C. Atli;I. Karaman;R.D. Noebe .Shape memory characteristics of Ti_(49.5)Ni_(25)Pd_(25)Sc_(0.5) high-temperature shape memory alloy after severe plastic deformation[J].Acta materialia,2011(12):4747-4760.
[3] K.C. ATLI;I. KARAMAN;R.D. NOEBE;A. GARG;Y.I. CHUMLYAKOV;I.V. KIREEVA .Improvement in the Shape Memory Response of Ti_(50.5)Ni_(24.5)Pd_(25) High-Temperature Shape Memory Alloy with Scandium Microalloying[J].Metallurgical and Materials Transactions, A. Physical Metallurgy and Materials Science,2010(10):2485-2497.
[4] S. Shimizu .Improvement of shape memory characteristics by precipitation-hardening of Ti-Pd-Ni alloys[J].Materials Letters,1998(1/2):23-29.
[5] Sawaguchi T.;Sato M.;Ishida A. .Microstructure and shape memory behavior of Ti-51.2(Pd27.0Ni21.8) and Ti-49.5(Pd28.5Ni22.0) thin films[J].Materials Science & Engineering, A. Structural Materials: Properties, Misrostructure and Processing,2002(1/2):47-55.
[6] JUN GUI;YONG S.CHU;OLUGBENGA O.FAMODU;YASUBUMI FURUYA;JAE.HATTRICK-SIMPERS .Combinatorial search of thermoelastic shape-memory alloys with extremely small hysteresis width[J].Nature materials,2006(4):286-290.
[7] Meng X.L.;Zheng Y.F. .Shape memory properties of the Ti_(36)Ni_(49)Hf_(15) high temperature shape memory alloy[J].Materials Letters,2000(2):128-132.
[8] X.L. Meng;W. Cai;Y.D. Fu .Shape-memory behaviors in an aged Ni-rich TiNiHf high temperature shape-memory alloy[J].Intermetallics,2008(5):698-705.
[9] F. Yang;D.R. Coughlin;PJ. Phillips .Structure analysis of a precipitate phase in an Ni-rich high-temperature NiTiHf shape memory alloy[J].Acta materialia,2013(9):3335-3346.
[10] Hee Young Kim;Takafumi Jinguu;Tae-hyun Nam .Cold workability and shape memory properties of novel Ti-Ni-Hf-Nb high-temperature shape memory alloys[J].Scripta materialia,2011(9):846-849.
[11] X.L. Meng;W. Cai;K.T. Lau .Phase transformation and microstructure of quaternary TiNiHfCu high temperature shape memory alloys[J].Intermetallics,2005(2):197-201.
[12] Pons J.;Cchernenko V. A. .CRYSTAL STRUCTURE OF MARTENSITIC PHASES IN Ni-Mn-Ga SHAPE MEMORY ALLOYS[J].Acta materialia,2000(12):3027-3038.
[13] A high-temperature shape-memory alloy Ni_(54)Mn_(25)Ga_(21)[J].Applied Physics Letters,2003(19):3206-3208.
[14] Y. Q. Ma;C. B. Jiang;G. Feng;H. B. Xu .Thermal stability of the Ni_(54)Mn_(25)Ga_(21) Heusler alloy with high temperature transformation[J].Scripta materialia,2003(4):365-369.
[15] K. Tsuchiya;A. Tsutsumi;H. Ohtsuka .Modification of Ni-Mn-Ga ferromagnetic shape memory alloy by addition of rare earth elements[J].Materials Science & Engineering, A. Structural Materials: Properties, Misrostructure and Processing,2004(1/2):370-376.
[16] Jiehe Sui;Zhiyou Gao;Huiru Yu .Martensitic and magnetic transformations of Ni_(56)Fe_(17)Ga_(27-x)Co_x high-temperature ferromagnetic shape memory alloys[J].Scripta materialia,2008(8):874-877.
[17] Yan Li;Yan Xin;Chengbao Jiang .Shape memory effect of grain refined Ni_(54)Mn_(25)Ga_(21) alloy with high transformation temperature[J].Scripta materialia,2004(9):849-852.
[18] Gao Y.;Lai JK.;Zhu M. .Microstructure characterization and effect of thermal cycling and ageing on vanadium-doped Cu-Al-Ni-Mn high-temperature shape memory alloy[J].Journal of Materials Science,1998(14):3579-3584.
[19] Pio John S. Buenconsejo;Hee Young Kim;Hideki Hosoda .Shape memory behavior of Ti-Ta and its potential as a high-temperature shape memory alloy[J].Acta materialia,2009(4):1068-1077.
[20] Pio John S. Buenconsejo;Hee Young Kim;Shuichi Miyazaki .Novel β-TiTaAl alloys with excellent cold workability and a stable high-temperature shape memory effect[J].Scripta materialia,2011(12):1114-1117.
[21] X.H. Zheng;J.H. Sui;X. Zhang .Thermal stability and high-temperature shape memory effect of Ti-Ta-Zr alloy[J].Scripta materialia,2013(12):1008-1011.
[22] Firstov, GS;Koval, YN;Van Humbeeck, J;Ochin, P.Martensitic transformation and shape memory effect in Ni3Ta: A novel high-temperature shape memory alloy[J].Materials Science & Engineering. A, Structural Materials: Properties, Microstructure and Processing,2008:590-593.
[23] Alan Lai;Zehui Du;Chee Lip Gan;Christopher A. Schuh .Shape Memory and Superelastic Ceramics at Small Scales[J].Science,2013(Sep.27 TN.6153):1505-1508.
[24] J. Ma;I. Karaman;R. D. Noebe .High temperature shape memory alloys[J].International Materials Reviews,2010(5):257-315.
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