[1] Ya Xu, H. Ohtsuka, K. Anak, S. Miyazaki, K. Itoh and H. Wada, “Effects of High Magnetic Field on Recrystallization Texture in Silicon Steels”, Proc. of Symposium on New Magneto-Science, SNMS-98, (1999) 239-246.

[2] E. Just, M. Kohl, W. Pfleging and S. Miyazaki, “SMA Microgripper with Integrated Antagonism”, Proc. Transducers-99, Sendai, Japan (1999) 1768-1771.

[3] V.H. No, S. Miyazaki, A. Ishida and P. Sittner, “Texture and Shape Memory Behavior in Sputter-deposited Ti-Ni Thin Films”, Seventh International Symposium on Plasticity and Its Current Applications, Plasticity-99, Cancun, Mexico, (1999) 255-258.

[4] Yinong Liu, I. Houver, H. Xiang, L. Bataillard and S. Miyazaki, “Strain　Dependence of Pseudoelastic Hysteresis of NiTi”, Melallurgical and Materials Transactions A, 30A (1999) 1275-1282.

[5] S. Miyazaki and A. Ishida, “Martensitic transformation and Shape Memory Behavior in TiNi-base Thin Films”, Materials Science and Engineering, A 273-275 (1999) 106-133.

[6] K. Anak, S. Miyazaki, H. Iwai and M. Kohl, “Effect of Heat Treatment on the Texture and Anisotropy of Transformation Strain in Ti-Ni-Fe Rolled Thin Plates”, Materials Science and Engineering, A 273-275 (1999) 763-768.

[7] S. Miyazaki, K. Mizukoshi, T. Ueki and T. Sakuma, “Fatigue Life of Ti-50at%Ni and Ti-40Ni-10Cu(at%) Shape Memory Wires”, Materials Science and Engineering, A 273-275 (1999) 658-663.

[8] K. Kitamura, S. Miyazaki, H. Iwai and M. Kohl, “Effect of Rolling Reduction on the Deformation Texture and Anisotropy of Transformation Strain in Ti-50.2at%Ni Thin Plates”, Materials Science and Engineering, A 273-275 (1999) 758-762.

[9] A. Ishida, M. Sato and S. Miyazaki, “Mechanical Properties of Ti-Ni Shape Memory Thin Films Formed by Sputtering”, Materials Science and Engineering, A 273-275 (1999) 754-757.

[10] T. Matsunaga, S. Kajiwara, K. Ogawa, T. Kikuchi and S. Miyazaki, “High Strength TiNi-based Shape Memory Thin Films”, Materials Science and Engineering, A 273-275 (1999) 745-748.

[11] M. Kohl, E. Just, E. Quandt, B. Winzek, S. Miyazaki and D.M. Allen, “Shape Memory Microvalves Based on Rolled Sheets or Thin Films”, Materials Science and Engineering, A 273-275 (1999) 784-788.

[12] S. Moine, C. Poilane, K. Kitamura, S. Miyazaki, P. Delobelle and C. Lexcellent, “Analysis of the Thermomechanical Behavior of Ti-Ni Shape Memory Alloy Thin Films by Bulging and Nanoindentation Procedure”, Materials Science and Engineering, A 273-275 (1999) 727-732.

[13] M. Kohl, D.M. Allen, T.T. Chen, S. Miyazaki and M. Schworer, “Anisotropy in Microdevices Produced by Micromachining of Cold-rolled NiTi Sheets”, Materials Science and Engineering, A270, (1999) 145-150.

[14] S. Miyazaki, V.H. No, K. Kitamura and K. Anak, “Texture and Transformation Strain Anisotropy in Ti-Ni Rolled Thin Plates and Sputter-deposited Thin Films”, Proc. Inter. Symposium on SMA Fundamentals, Modeling & Applications, Quebec, Canada (1999) 235-250.

[15] Ya Xu, H. Ohtsuka, S. Umezawa, K. Anak, S. Miyazaki and H. Wada, “Effects of High Magnetic Field on Recrystallization and Coarsening Behavior in Fe-Si Steels”, Proc. of the 4th Inter. Conf. on Recrystallization and Related Phenomena, Tsukuba, Japan, (1999) 571-576.

[16] B. Raniecki, L. Dietrich, Z.L. Kowalewski, G. Socha, S. Miyazaki, K. Tanaka and A. Ziolkowski, “ Experimental Methodology for TiNi Shape Memory alloy Testing Under Complex Stress State”, Archives of Mechanics, 51 (1999) 726-744.

[17] B. Raniecki, S. Miyazaki, K. Tanaka, L. Dietrich and C. Lexcellent “Deforamtion Behaviour of TiNi SMA Undergoing R-phase Transformation in Tortion-Tention (Compression) Tests”, Archives of Mechanics, 51 (1999) 745-784.

[18] K. Tanaka, K. Kitamura and S. Miyazaki, “Shape Memory Alloy Preparation for Multiaxial Tests and Identification of Fundamental Alloy Performance”, Archives of Mechanics, 51 (1999) 785-804.

[19] T. Kikuchi, K. Ogawa, S. Kajiwara, T. Matsunaga and S. Miyazaki, “Further Studies on Non-equilibrium Phase and Nanocrystals Formed During Crystallization of Amorphous Ti-rich Ti-Ni Thin Films”, Proc. of PTM-99, (1999) 1092-1095.

[20] 桜井淳平、宮崎修一、“Ti-Niスパッタ薄膜の内部組織と形状記憶特性”、応用物理学会薄膜・表面 News Letter、No. 105 (1999) 2-7.

[21] 宮崎修一、石田章、“強力大変位マイクロアクチュエータ材料 - Ti-Ni形状記憶合金薄膜”、日本金属学会会報-まてりあ、38 (1999) 95-96 ．

[22] 宮崎修一、“チタン-ニッケル系形状記憶合金”、材料科学、36 (1999) 42-47 ．

[23] 宮崎修一、“相変態の新しい展開と機能材料への応用”、セラミックス、34 (1999) 461-465 ．