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Comparison of shape memory characteristics of a Ti-50.9 At. Pct Ni alloy aged at 473 and 673 KJAE IL KIM; MIYAZAKI, Shuichi.Metallurgical and materials transactions. A, Physical metallurgy and materials science. 2005, Vol 36, Num 12, pp 3301-3310, issn 1073-5623, 10 p.Article

A constrained theory on actuation strain in ferromagnetic shape memory alloys induced by domain switchingMA, Y. F; LI, J. Y.Acta materialia. 2007, Vol 55, Num 9, pp 3261-3269, issn 1359-6454, 9 p.Article

Active materials and compositesSOTTOS, Nancy.Journal of intelligent material systems and structures. 1998, Vol 9, Num 5, issn 1045-389X, 78 p.Conference Proceedings

Understanding the Shape-Memory Behavior in Ti-(∼49 At. Pct) Ni Alloy by Nanoindentation MeasurementSINHA, A; DATTA, S; CHAKRABORTI, P. C et al.Metallurgical and materials transactions. A, Physical metallurgy and materials science. 2013, Vol 44, Num 4, pp 1722-1729, issn 1073-5623, 8 p.Article

Hysteresis in shape memory alloys. Is it always a constant?HUANG, W. M; XU, W.Journal of materials science. 2005, Vol 40, Num 11, pp 2985-2986, issn 0022-2461, 2 p.Article

Recent activities of association of shape memory alloys (ASMA) in JapanKOBAYASHI, J; YAMAUCHI, K; MIYASHITA, T et al.Journal de physique. IV. 1995, Vol 5, Num 8, pp C8.1159-C8.1163, issn 1155-4339, 2Conference Paper

Electrochemical characterization of Ni47.7Ti37.8sNb14.5 shape memory alloy in artificial salivaMARECI, D; CHELARIU, R; CAILEAN, A et al.Materials and corrosion (1995). 2012, Vol 63, Num 9, pp 807-812, issn 0947-5117, 6 p.Article

Compressive response of a single crystalline CoNiA1 shape memory alloyKARACA, H. E; KARAMAN, I; CHUMLYAKOV, Y. I et al.Scripta materialia. 2004, Vol 51, Num 3, pp 261-266, issn 1359-6462, 6 p.Article

Can shape memory alloy composites be smart?MICHAUD, V.Scripta materialia. 2004, Vol 50, Num 2, pp 249-253, issn 1359-6462, 5 p.Article

On possibilities to accelerate engineering application of shape memory alloysIONAITIS, R. R; CHERNOV, D. B.Journal de physique. IV. 1997, Vol 7, Num 5, pp C5.643-C5.648, issn 1155-4339Conference Paper

Structural and magnetic transitions in Fe-, Co-, and Al-substituted Ni-Mn-Ga ferromagnetic shape memory alloysMATHUR, R. P; SINGH, R. K; CHANDRASEKARAN, V et al.Metallurgical and materials transactions. A, Physical metallurgy and materials science. 2007, Vol 38, Num 9, pp 2076-2084, issn 1073-5623, 9 p.Article

The science and art of smart materialsKEMP, M.Materials world. 1994, Vol 2, Num 12, pp 632-633, issn 0967-8638Article

Study of New Multifunctional Shape Memory and Low Elastic Modulus Ni-Free Ti AlloysARCINIEGAS, M; MANERO, J. M; PENA, J et al.Metallurgical and materials transactions. A, Physical metallurgy and materials science. 2008, Vol 39, Num 4, pp 742-751, issn 1073-5623, 10 p.Article

Twin stabilization in a ferromagnetic shape memory alloyLIYANG DAI; WUTTIG, Manfred; PAGOUNIS, Emmanouel et al.Scripta materialia. 2006, Vol 55, Num 9, pp 807-810, issn 1359-6462, 4 p.Article

The corrosion and nickel release behavior of laser surface-melted NiTi shape memory alloy in hanks, solutionCUI, Z. D; MAN, H. C; YANG, X. J et al.Surface & coatings technology. 2005, Vol 192, Num 2-3, pp 347-353, issn 0257-8972, 7 p.Article

Demands on Shape Memory Alloys from the application designer's point of viewABRAHAMSSON, P; MØSTER, E.Journal de physique. IV. 1997, Vol 7, Num 5, pp C5.667-C5.672, issn 1155-4339Conference Paper

Stress-biased cymbals using shape memory alloysNARAYANAN, Manoj; SCHWARTZ, Robert W; DAYU ZHOU et al.Journal of the American Ceramic Society. 2007, Vol 90, Num 4, pp 1122-1129, issn 0002-7820, 8 p.Article

Investigation on the connecting strength of Fe-Mn-Si-C shape memory alloy pipe couplingPINQIANG DAI; LIHUA ZHOU.Journal of materials science. 2006, Vol 41, Num 11, pp 3441-3443, issn 0022-2461, 3 p.Article

Schleifen von Formgedächtnislegierungen = Grinding of shape memory alloyWEINERT, Klaus; KEMPMANN, Christoph; KÖTTER, Dirk et al.VDI-Z. 2002, Vol 144, Num AOU, pp 61-65, issn 0042-1766, NSArticle

Microstructural Developments Through Marforming in a Ni-Ti-Fe Shape Memory AlloyBASU, R; JAIN, L; MAJI, B. C et al.Metallurgical and materials transactions. A, Physical metallurgy and materials science. 2013, Vol 44, Num 9, pp 4310-4322, issn 1073-5623, 13 p.Article

New Sequences of Phase Transition in Ni-Mn-Ga Ferromagnetic Shape Memory NanoparticlesLIU, D. M; NIE, Z. H; WANG, Y. D et al.Metallurgical and materials transactions. A, Physical metallurgy and materials science. 2008, Vol 39, Num 2, pp 466-469, issn 1073-5623, 4 p.Article

Comparison of high temperature shape memory behaviour for ZrCu-based, Ti-Ni-Zr and Ti-Ni-Hf alloysFIRSTOV, G. S; VAN HUMBEECK, J; KOVAL, Yu. N et al.Scripta materialia. 2004, Vol 50, Num 2, pp 243-248, issn 1359-6462, 6 p.Article

Biocorrosion and cytocompatibility assessment of NiTi shape memory alloysROCHER, P; EL MEDAWAR, L; HORNEZ, J.-C et al.Scripta materialia. 2004, Vol 50, Num 2, pp 255-260, issn 1359-6462, 6 p.Article

In-Situ High-Energy X-Ray Diffuse-Scattering Study of the Phase Transition in a Ni2mnGa Ferromagnetic Shape-Memory CrystalGANG WANG; WANG, Yan-Dong; YANG REN et al.Metallurgical and materials transactions. A, Physical metallurgy and materials science. 2008, Vol 39, Num 13, pp 3184-3190, issn 1073-5623, 7 p.Conference Paper

A consistent approach for deriving a 1D constitutive equation for shape memory alloysKHANDAN, Rasoul; MAHZOON, Mojtaba; SEYED AHMAD FAZELZADEH et al.Smart materials and structures. 2009, Vol 18, Num 9, issn 0964-1726, 097002.1-097002.4Article

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