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[1] M. Tomozawa, H.Y. Kim and S. Miyazaki, gShape Memory Behavior and Internal Structure of Ti-Ni-Cu Shape Memory Alloy Thin Films and Their Application for Microactuatorsh Acta Materialia, 57 (2009) 441-452.

[2] ĎRVA{CҒAgShape Memory Alloys for Biomedical Applicationsh, Ed. By T. Yoneyama and S. Miyazaki, Woodhead Publishing, England (2009).

[3] S. Miyazaki and R.L. Sachdeva, gShape Memory Effect and Superelasticity in Ti-Ni Alloysh in gShape Memory Alloys for Biomedical Applicationsh, Ed. By T. Yoneyama and S. Miyazaki, Woodhead Publishing, England (2009) 3-19.

[4] H.Y. Kim and S. Miyazaki, gAlternative Shape Memory Alloysh in gShape Memory Alloys for Biomedical Applicationsh, Ed. By T. Yoneyama and S. Miyazaki, Woodhead Publishing, England (2009) 69-85.

[5] P.J. Buenconsejo, H. Hosoda, H.Y. Kim and S. Miyazaki, gShape Memory Behavior of Ti-Ta and Its Potential as High Temperature Shape Memory Alloyh, Acta Materialia, 57 (2009) 1068-1077.

[6] H.Y. Kim, M. Mizutani and S. Miyazaki, gCrystallization process and shape memory properties of Ti-Ni-Zr thin filmsh, Acta Materialia, 57 (2009) 1920-1930.

[7] M. Tahara, H.Y. Kim, H. Hosoda and S. Miyazaki, gCyclic Deformation Behavior of a Ti-26at.%Nb Alloyh, Acta Materialia, 57 (2009) 2461-1469.

[8] G. Murasawa, K. Kitamura, S. Yoneyama, S. Miyazaki, K. Miyata, A. Nishioka and T. Koda, gMacroscopic Stress-Strain Curve, Local Strain Band Behavior and Texture of NiTi Thin Stressh, Smart Materials and Structures, 18 (2009) 209-213.

[9] P.J. Buenconsejo, H.Y. Kim and S. Miyazaki, gEffect of Ternary Alloying Elements on the Shape Memory Behavior of Ti-Ta Alloysh, Acta Materialia, 57 (2009) 2509-2515.

[10] S. Miyazaki, Y.Q. Fu and W.M. Huang ҒAgThin Film Shape Memory Alloysh, Cambridge University Press, England, (2009).

[11] S. Miyazaki, Y.Q. Fu and W.M. Huang, gOverview of Sputter deposited TiNi Based Thin Filmsh, in gThin Film Shape Memory Alloysh, Cambridge University Press, England, (2009) 1-72.

[12] S. Miyazaki, gMartensitic Transformation in Ti-Ni alloysh, in gThin Film Shape Memory Alloysh, Cambridge University Press, England, (2009) 73-87.

[13] H. Cho and S. Miyazaki, gTi/Ni Multilayer Thin Dilmsh, in gThin Film Shape Memory Alloysh, Cambridge University Press, England, (2009) 110-123.

[14] S. Miyazaki, M. Tomozawa and H.Y. Kim, gBinary and Ternary Alloy Film Diaphragm Microactuatorsh in gThin Film Shape Memory Alloysh, Cambridge University Press, England, (2009) 300-320.

[15] P.J. Buenconsejo, H.Y. Kim and S. Miyazaki, gFabrication and Characterization of Sputter-deposited Ti-Ni Superelastic Microtubesh, in gThin Film Shape Memory Alloysh, Cambridge University Press, England, (2009) 385-402.

[16] H. Tobe, H.Y. Kim and S. Miyazaki, gEffect of Nb Content on Deformation Textures and Mechanical Properties of Ti-18Zr-Nb Biomedical Alloysh, Materials Transactions, 50 (2009) 2721-2725.

[17] M. Tahara, H.Y. Kim, T. Inamura, H. Hosoda and S. Miyazaki, gEffect of Nitrogen Addition on Superelasticity of Ti-Zr-Nb Alloysh, Materials Transactions, 50 (2009) 2726-2730.

[18] M. Tahara, H.Y. Kim, H. Hosoda and S. Miyazaki, gSHAPE MEMORY EFFECT AND CYCLIC DEFORMATION BEHAVIOR OF Ti-Nb-N ALLOYSh, Functional Materials Letters, 2 (2009) 79-82.

[19] H.Y. Kim, S. Miyazaki, g@\`^(T)-}eTCgϑԂƌ`L-h, `^, 57 (2009) 275-281.

[21] H. Tobe, H.Y. Kim, T. Inamura, H. Hosoda, T.H. Nam and S. Miyazaki, gEffect of Thermo-mechanical Treatment on Superelasticity of Ti-18Zr-15Nb Alloyh, Processing and Fabrication of Advanced Materials XVIII, (2009) 1295-1300.

[22] H.Y. Kim, M.Tahara, H. Hosoda, T.H. Nam and S. Miyazaki, gEffect of O and N Addition on Superelastic Properties of Ti-Nb Based Alloysh, Processing and Fabrication of Advanced Materials XVIII, (2009) 1047-1052.

[23] T. Inamura, H.Y. Kim, H. Hosoda, K. Wakashima and S. Miyazaki, gAntiphase Boundary Like Deffect inside ah-Martensite in Ti-Nb-Al Shape Memory Alloyh, Proc. of the International Conference on Martensitic Transformations, ICOMAT-2008, Santa Fe, USA, (2009) 335-340.

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