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[2] L. S. Wei, H.Y. Kim, T. Koyano, S. Miyazaki, “Effects of oxygen concentration and temperature on deformation behavior of Ti-Nb-Zr-Ta-O alloys”, Scripta Materialia, 123 (2016) 55-58.

[3] M. Tahara, T. Inamura, H.Y. Kim, S. Miyazaki, H. Hosoda, “Role of oxygen atoms in α″ martensite of Ti-20at.% Nb alloy”, Scripta Materialia 112 (2016), 15-18.

[4] Y. Namigata, Y. Hattori, M.I. Khan, H.Y. Kim, S. Miyazaki, “Enhancement of shape memory properties through precipitation hardening in a Ti-Rich Ti-Ni-Pd high temperature shape memory alloy”, Materials Transactions, 57 (2016) 241-249.

[5] S.H. Kayani, M.I. Khan, F.A. Khalid, H.Y. Kim, S. Miyazaki, “Precipitation behavior of thermo-mechanically treated Ti50Ni20Au20Cu10 High-temperature shape-memory alloy”, Shape Memory and Superelasticity, 2 (2016) 29-36.

[6] T. Inamura, R. Shimizu, H.Y. Kim, S. Miyazaki, H. Hosoda, “Optimum rolling ratio for obtaining {001}<110> recrystallization texture in Ti-Nb-Al biomedical shape memory alloy”, Materials Science and Engineering C, 61 (2016) 499-505.

[7] K. Endoh, M. Tahara, T. Inamura, H.Y. Kim, S. Miyazaki, H. Hosoda, “Effect of Zr addition on mechanical and shape memory properties of Ti-5Mo-3Sn Alloys”, Journal of the Japan Institute of Metals, 80 (2016) 37-44.