1、 l : 2006- 12- 29Te: X(1965- ), 3, C ,) =,p V 3.1 2 Vo111,No1 22 0 0 7 M6MATERIALS RESEARCH AND APPLICATION Jun1 20 0 7cI|:1673-9981(2007) 02-0086-05 :kZ刘克勇, 雷永超, 蔡 伟, 赵连城(W: X,: :kZ 24 . 3 , “ - .T1 Tadaki 25 :V M) Fcv p%lH f8, O , T/ f8HM 4.FH f8 v, H T/ v l ah ,V7 3.dL F H 3 ,? f8MM,C , M9F M;,?
2、3 f8 IMM,M7C. MW Xp,yN dL. dLM Vr8%26 , #,D 5 ,1.3 !9PG .V , Z, b f8MM$, Y , d. “ - , 14 4 Z .311 4 4 1 ? z 4.1982 MK1Tanaka32 :kMMV1 ?rKl ,y B , ? ZClausius-Duhemd :k:k?. “ -,K1 Tanaka33 , C1 Liang34L1Brinson35K X,: :kZSuperelasticityduring elastictwinning,slip,and marten-sitic transformations C .
3、2nd Inter Conf on SMST.Menlo Park CA:SMST Society Inc,1997:29-34. 24 ZADON G, DUERIG T. Linear superelasticity in cold-worked TiNi G. Engineering aspects of shape memo-ry alloy. London: Butterworth-Heinemann Ltd, 1990:414-419. 25 TADAKI T, WAYMAN C. Crystal structure and m-icrostructure of a cold wo
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6、ect of cyclicdeformation on the pseudoelastic characteristics of TiNialloys J. Metall Trans A,1986,17: 115-120. 30 FILIP P, MAZANEC K. Influence of cycling on the re-versible martensitic transformation and shape memoryphenomena in NiTi alloys J . Scripta Metall Mater,1993, 30:67-72. 31 LIM T, M CDOW
7、ELL D. Path dependence of shapememory alloys during cyclic loading J . J Intell MaterSyst Struct,1995,6:817-830. 32 TANAKA K. A thermomechanical sketch of shapememory effect: one-dimensional tensile behavior J .Res Mech,1986,18: 251-263. 33 TANAKA K, NAGAKI S. A thermomechanical de-scription of mate
8、rials with internal variables in theprocess of phase transitions J . Ing-Arch, 1982, 51:287-299. 34 LIANG C, ROGER C. One-demensional thermome-chanical constitutive relations for shape memory mate-rials J . J Intell M ater Syst Struct,1990( 1) :227-234. 35 BRINSON L. One-dimensional constitutive beh
9、avior ofshape memory alloys: thermomechanical derivationwith non-constant material functions and redefined mar-tensite internal variable J . J Intell Mater Syst Struct,1993(4): 229-242. 36 TANAKA K, SATO Y. Phenomenological descriptionof the mechanical behavior of shape memory alloys J .J SME, 1987,
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11、e memoryalloysJ. J Mech Phys Solids,1993, 41:1-33. 39 PATOOR E,EBERHARDT A,BERVEILLER M. M-icromechanical modeling of superelasticity in shapememory alloysC / J Physique IV 6( C1) . Les Ulis:Edition Physique. 1996: 277-292. 40 GAO X, BRINSON L. A simplified multivariant SMAmodel based on invariant p
12、lane nature of martensitictransformation J . J Intell Mater Syst Struct, 2002,13: 795-810.The investigation progress on TiNi shape memory alloyLIU Ke-yong, LEI Yong-chao, CAI Wei, ZHAO Lian-cheng( School of Materials Science and Engineering, H arbin Institute of T echnology, H arbin 150001, China)Ab
13、stracts: The progress on TiNi shape memory alloyps investigation and application was briefly introducedin the world in the view of application. At thesame time, the concise comments on TiNips physical meta-llurgical fundamentals, thermo-mechanical behaviors and mechanical modeling investigation were made.Key words: TiNi shape memory alloy; transformational physical fundamentals; thermo-mechanical behav-iors; mechanical modeling90 2 0 0 7
