[1] Masahiro Hirano, Hideki Hosoda, Hiroaki Suzuki and Shuichi Miyazaki, “Dynamic Characteristics of Diaphragm-Type Microactuators Utilizing Sputter-Deposited Ti-Ni Shape Memory Alloy Thin Films”, Transactions of Materials Research Society of Japan, 26 (2001) pp. 133-136.
[2] Toshio Sakuma, Shuichi Miyazaki, Maho Hosogi and Nagatoshi Okabe, “Functional Degradation in Ti-41.7Ni-8.5Cu (at%) Shape Memory Alloy”, Transactions of Materials Research Society of Japan, 26 (2001) pp. 153-158.
[3] Nagatoshi Okabe, Toshio Sakuma, Maho Hosogi and Shuichi Miyazaki, “Probabilistic Estimation of Degradation of Functions and Strength for Ti-41.7Ni-8.5Cu (at%) Shape Memory Alloy under Thermo-Mechanical Cyclic Conditions”, Transactions of Materials Research Society of Japan, 26 (2001) pp. 159-162.
[4] Toshio Sakuma, Hiroshi Takaku, Yuji Kimura, Li-Bin Niu and Shuichi Miyazaki, “Corrosion and Fatigue Characteristics in Water Environments for Ti-Ni Base Shape Memory Alloys with Various Surface Treatments”, Transactions of Materials Research Society of Japan, 26 (2001) pp. 167-170.
[5] Setsuo Kajiwara, Koutarou Yamazaki, Kazuyuki Ogawa, Takehiko Kikuchi and Shuichi Miyazaki, “Main Factors for Obtaining Good Shape Memory Properties in Sputter-Deposited Thin Films of Ti-Ni Based Alloys”,Transactions of Materials Research Society of Japan, 26 (2001) pp. 183-188.
[6] Anak Khantachawana, Koutarou Yamazaki, Hideki Hosoda and Shuichi Miyazaki, “Effect of Heat-Treatment on Deformation Behavior and Microstructure of Rapidly Solidified Ti-49.0at%Ni Shape Memory Alloy Ribbons”,Transactions of Materials Research Society of Japan, 26 (2001) pp. 193-196.
[7] Hideki Hosoda, Yoshinori Ohmatsu and Shuichi Miyazaki, “Mechanical Properties of Ti-Mo-Ga Biomedical Shape Memory Alloys”, Transactions of Materials Research Society of Japan, 26 (2001) pp. 235-238.
[8] Hideki Hosoda, Norifumi Hosoda and Shuichi Miyazaki, “Mechanical Properties of Ti-Mo-Al Biomedical Shape Memory Alloys”, Transactions of Materials Research Society of Japan, 26 (2001) pp. 243-246.
[9] Nagatoshi Okabe, Toshio Sakuma, Harumi Iwakuma, Maho Hosogi and Shuichi Miyazaki, “Probabilistic Prediction of Transformation Temperature Varied with Cold Working Ratio and Shape Memory Heat Treatment Temperature in Ti-41.7Ni-8.5Cu (at%) Shape Memory Alloy”, Transactions of Materials Research Society of Japan, 26 (2001) pp. 251-254.
[10] Kazutoshi Okutsu, Hideki Hosoda and Shuichi Miyazaki, “Shape Memory Behavior of Sputter-Deposited Ti-26.5Ni-22.7Pd High-Temperature Shape Memory Alloy Thin Films Heat-Treated at Various Temperatures”, Transactions of Materials Research Society of Japan, 26 (2001) pp. 255-258.
[11] Kazutoshi Okutsu, Hideki Hosoda and Shuichi Miyazaki, “Microstructures of Sputter-Deposited Ti-26.5Ni-22.7Pd High-Temperature Shape Memory Alloy Thin Films Heat-Treated at Various Temperatures”, Transactions of Materials Research Society of Japan, 26 (2001) pp. 259-262.
[12] Hideki Hosoda, Tsuyoshi Sugimoto and Shuichi Miyazaki, “Low Temperature Aging of Ni2MnGa Alloy”, Transactions of Materials Research Society of Japan, 26 (2001) pp. 263-266.
[13] Toshio Sakuma, Uichi Iwata, Tatsumi Inomata, Yasuo Ochi and Shuichi Miyazaki, “Effect of Cold Working Ratio on Fatigue Property in Ti-41.7Ni-8.5Cu (at%) Shape Memory Alloy”, Transactions of Materials Research Society of Japan, 26 (2001) pp. 267-270.
[14] Koutarou Yamazaki, Setsuo Kajiwara, Takehiko Kikuchi, Kazuyuki Ogawa and Shuichi Miyazaki, “Mechanical Properties of Parent Phase of Sputter-Deposited Shape Memory Thin Films of Ti-rich Ti-Ni-Cu Alloys”, Transactions of Materials Research Society of Japan, 26 (2001) pp. 299-302.
[15] Anak Khantachawana, Shuichi Miyazaki and Hirohisa Iwai, “Effect of Cold-Rolling on the Texture and Anisotropy of Transformation Strain in Ti-Ni-Fe Rolled Thin Plates”, Transactions of Materials Research Society of Japan, 26 (2001) pp. 311-314.
[16] Junpei Sakurai, Jae-Il Kim, Hideki Hosoda and Shuichi Miyazaki, “Shape Memory Characteristics of Sputter-deposited Ti-51.3at%Ni Thin Films Aged at Various Temperatures”, Transactions of Materials Research Society of Japan, 26 (2001) pp. 315-318.
[17] Junpei Sakurai, Jae-Il Kim, Hideki Hosoda and Shuichi Miyazaki, “Microstructure and Tensile Deformation Behavior of Sputter-deposited Ti-51.3at%Ni Thin Films Crystallized at Various Temperatures”, Transactions of Materials Research Society of Japan, 26 (2001) pp. 319-322.
[18] Jae-Il Kim, Eiji Abe, Hideki Hosoda and Shuichi Miyazaki, “Effect of Low Temperature Aging on Shape Memory Behavior in Ti-50.9at.%Ni Alloy”, Transactions of Materials Research Society of Japan, 26 (2001) pp. 323-326.
[19] Toshio Sakuma, Maho Hosogi, Uichi Iwata, Nagatoshi Okabe and Shuichi Miyazaki, “Effect of Thermo-Mechanical and Superelastic Cycles on Transformation Temperatures in Ti-41Ni-10Cu (at%) Shape Memory Alloy”, Transactions of Materials Research Society of Japan, 26 (2001) pp. 327-330.
[20] Yasunori Masunaga, Jae-Il Kim, Norifumi Hosoda, Toshio Sakuma and Shuichi Miyazaki, “Effect of Aging Treatment on Fatigue Properties of Ti-50.9at%Ni Shape Memory Alloy”, Transactions of Materials Research Society of Japan, 26 (2001) pp. 331-334.
[21] Hideki Hosoda, Anak Khantachawana and Shuichi Miyazaki, “Damping Properties of Ti-Ni Alloy with Large Vibration Strain”, Transactions of Materials Research Society of Japan, 26 (2001) pp. 343-346.
[22] T. Matsunaga, S. Kajiwara, K. Ogawa, T. Kikuchi and S. Miyazaki, “Internal Structures and Shape Memory Properties of Sputter-deposited Thin Films of Ti-Ni-Cu Alloy”, Acta Materialia, 49 (2001) pp. 1921-1928.
[23] H. Hosoda, S. Miyazaki and Y. Mishima, “Phase constitution of some Intermetallics in Continuous Quaternary Pillar Phase Diagrams”, Journal of Phase Equilibria, 22 (2001) pp. 394-399.
[24] M. Hirano, H. Hosoda, H. Suzuki and S. Miyazaki, “Effect of Cooling efficiency on Dynamic Characteristics of Diaphragm-Type Microactuators Utilizing Sputter-Deposited Ti-Ni Shape Memory Alloy Thin Films”, Proc. of the 4th Pacific Rim International Conference on Advanced Materials and Processing (PRICM4), The Japan Institute of Metals, (2001) 1505-1507.
[25] J. Sakurai, Jae-Il Kim and S. Miyazaki, “Shape Memry Behavior and Microstructure in Sputter-Deposited Ti-47.3at%Ni Thin Films”, Proc. of the 4th Pacific Rim International Conference on Advanced Materials and Processing (PRICM4), The Japan Institute of Metals, (2001) 1509-1512.
[26] J. Sakurai, Jae-Il Kim, H. Hosoda and S. Miyazaki, “Comparison of Mechanical Properties of Near-Equiatomic Ti-Ni Shape Memory Alloys Fabricated by Sputter-Deposition and Ingot-Metallurgy”, Proc. of the 4th Pacific Rim International Conference on Advanced Materials and Processing (PRICM4), The Japan Institute of Metals, (2001) 1513-1516.
[27] K. Okutsu, H. Hosoda and S. Miyazaki, “Shape Memry Behavior of Sputter-Deposited Ti-Ni-Pd Thin Films”, Proc. of the 4th Pacific Rim International Conference on Advanced Materials and Processing (PRICM4), The Japan Institute of Metals, (2001) 1521-1523.
[28] K. Okutsu, Jae-Il Kim and S. Miyazaki, “Characteristics of Ti-12.7Ni-35.3Pd High-Temperature Shape Memory Alloy Thin Films”, Proc. of the 4th Pacific Rim International Conference on Advanced Materials and Processing (PRICM4), The Japan Institute of Metals, (2001) 1525-1528.
[29]H. Cho, J. Sakurai, Jae-Il Kim, H. Hosoda and S. Miyazaki, “Effect of Aging Time on Crystallization and Shape Memory Behavior of Sputter-Deposited Ni-Rich Ti-Ni Thin Films”, Proc. of the 4th Pacific Rim International Conference on Advanced Materials and Processing (PRICM4), The Japan Institute of Metals, (2001) 1529-1532.
[30]A. Khantachawana, K. Yamazaki, H. Hosoda and S. Miyazaki, “Microstructures of Ti-Ni-10at%Cu Shape Memory Alloy Melt-Spun Ribbons with Various Ni Contents”, Proc. of the 4th Pacific Rim International Conference on Advanced Materials and Processing (PRICM4), The Japan Institute of Metals, (2001) 1533-1536.
[31]A. Khantachawana, K. Yamazaki and S. Miyazaki, “Deformation Behavior and Microstructures of Ti-50at%Ni and Ti-40Ni-10Cu(at%) SMA Melt-Spun Ribbons”, Proc. of the 4th Pacific Rim International Conference on Advanced Materials and Processing (PRICM4), The Japan Institute of Metals, (2001) 1537-1540.
[32]N. Hosoda, H. Hosoda and S. Miyazaki, “Mechanical properties of Ti-Mo base biomedical shape memory alloys”, Proc. of the 4th Pacific Rim International Conference on Advanced Materials and Processing (PRICM4), The Japan Institute of Metals, (2001) 1623-1625.
[33]Y, Ohmatsu, H. Hosoda and S. Miyazaki, “Tensile Properties of Ti-Mo-Ga Alloys”, Proc. of the 4th Pacific Rim International Conference on Advanced Materials and Processing (PRICM4), The Japan Institute of Metals, (2001) 1627-1629.
[34]H. Hosoda T, Sugimoto and S. Miyazaki, “Effect of Heat Treatment on Hardness of Ni2MnGa Alloys”, Proc. of the 4th Pacific Rim International Conference on Advanced Materials and Processing (PRICM4), The Japan Institute of Metals, (2001) 1669-1671.
[35] Jae-Il Kim, H. Hosoda and S. Miyazaki, “Effect of Aging on Shape Memory Behavior in Ti-50.9at%Ni Alloy”, Proc. of the 4th Pacific Rim International Conference on Advanced Materials and Processing (PRICM4), The Japan Institute of Metals, (2001) 1839-1842.
[36] Y. Masunaga, Jae-Il Kim, T. Sakuma, K. Murata and S. Miyazaki, “Shape Memory Properties and Microst ructures of Resistance-Welded Ti-50.9at%Ni Alloy Wires”, Proc. of the 4th Pacific Rim International Conference on Advanced Materials and Processing (PRICM4), The Japan Institute of Metals, (2001) 1847-1850.
[37] A. Pelton, J. DiCello and S. Miyazaki, “Optimization of Processing and Properties of Medical-Grade Nitinol Wire”, Proc. of International Conference on Shape Memory and Superelastic Technologies (SMST-2000), Pacific Grove, California, USA (2001) 361-374.
[38] 細田秀樹、宮崎修一、“パイプ継手などで信頼性の高い形状記憶機能材料”、高圧ガス、38 (2001) 19-24.
[39] 長村光造、宮崎修一、“機能性金属系材料”、材料と評価の最前線、日本材料学会編、(2001) 20-28
[40] 形状記憶合金の特性と応用展開(宮崎修一、佐久間俊雄、渋谷壽一編著)、(株)シーエムシー、(2001).
