九州大学 研究者情報
論文一覧
中島 英治(なかしま ひではる) データ更新日:2023.11.27

教授 /  総合理工学研究院 物質科学部門 固体材料物性工学


原著論文
1. Tsubasa Tokuzumi, Masatoshi Mitsuhara, Shigeto Yamasaki, Tomonari Inamura, Toshiyuki Fujii, Hideharu Nakashima, Role of disclinations around kink bands on deformation behavior in Mg–Zn–Y alloys with a long-period stacking ordered phase, Acta Materialia, 248, 118785, 2023.03.
2. Misaki Deguchi, Shigeto Yamasaki, Masatoshi Mitsuhara, Hideharu Nakashima, Genki Tsukamoto, Tomonori Kunieda, Tensile deformation behaviors of pure-Ti with different grain sizes under wide-range strain rate, Materials, 16, 529, 2023.03.
3. 山﨑重人, 光原昌寿, 中島英治, 木村一弘, 窒素または炭素を含有するLaves強化型フェライト系耐熱鋼のクリープ変形挙動と微細組織, 鉄と鋼, 109, 167-178, 2023.03.
4. 光原昌寿, 栗野晃一, 矢野康英, 大塚智史, 外山健, 大沼正人, 中島英治, 9Crまたは12Cr系酸化物分散強化鋼の高温力学特性と微細組織, 鉄と鋼, 109, 189-200, 2023.03.
5. Satoshi Ohtsuka, Yuta Shizukawa, Takashi Tanno, Yasuhide Yano, Ryuta Hashidate, Takashi Onizawa, Takeji Kaito, Masato Ohnuma, Masatoshi Mitsuhara, Hideharu Nakashima, High-temperature creep properties of 9Cr-ODS tempered martensitic steel and quantitative correlation with its nanometer-scale structure, Journal of Nuclear Science and Technology, 60, 288-298, 2023.03.
6. Genki Tsukamoto, Tomonori Kunieda, Masatoshi Mitsuhara, Hideharu Nakashima, Effect of twinning deformation on work hardening in commercially pure titanium, Materials Science and Engineering A, 840, 142907, 2022.02.
7. Shigeto Yamasaki, Masatoshi Mitsuhara, Hideharu Nakashima, Relationship between creep strength and magnetic properties of cobalt-bearing high chromium ferritic steel, ISIJ International, 10.2355/isijinternational.ISIJINT-2020-315, 61, 1, 408-416, 2021.01.
8. Misaki Deguchi, Shigeto Yamasaki, Masatoshi Mitsuhara, Hideharu Nakashima, Yutaro Ota, Dislocation motion and microstructure evolution deformed during creep at room temperature in Ti-6Al-4V alloy, Keikinzoku/Journal of Japan Institute of Light Metals, 10.2464/JILM.70.405, 70, 8, 405-414, 2020.10.
9. Shigeto Yamasaki, Tsubasa Tokuzumi, Wansong Li, Masatoshi Mitsuhara, Koji Hagihara, Toshiyuki Fujii, Hideharu Nakashima, Kink Formation Process in Long-Period Stacking Ordered Mg-Zn-Y Alloy, Acta Materialia, 10.1016/j.actamat.2020.04.051, 195, 25-34, 2020.08.
10. Tsubasa Tokuzumi, Shigeto Yamasaki, Wansong Li, Masatoshi Mitsuhara, Hideharu Nakashima, Morphological and crystallographic features of kink bands in long-period stacking ordered Mg-Zn-Y alloy analyzed by serial sectioning SEM-EBSD observation method, Materialia, 10.1016/j.mtla.2020.100716, 12, 2020.08.
11. Kazuki TONOTSUKA, Yoshikazu TODAKA, Nozomu ADACHI, Motohiro HORII, Kenichi TODA, Masatoshi MITSUHARA, Masumi IWASAKI, Yoshinori SHIIHARA, Yoshitaka UMENO, Minoru NISHIDA, Hideharu NAKASHIMA, Effect of lattice defects on tribological behavior for high friction coefficient under TCP added PAO lubrication in nanostructured steels, ISIJ International, 10.2355/isijinternational.ISIJINT-2019-707, 60, 6, 1358-1365, 2020.06.
12. Wansong Li, Shigeto Yamasaki, Masatoshi Mitsuhara, Hideharu Nakashima, In situ EBSD study of deformation behavior of primary α phase in a bimodal Ti-6Al-4V alloy during uniaxial tensile tests, Materials Characterization, 10.1016/j.matchar.2020.110282, 163, 2020.05, [URL], Uniaxial tension experiments and electron backscatter diffraction were performed on a bimodal Ti-6Al-4V alloy to study in situ the deformation behavior of primary hcp-Ti (αp). It was found that the strain could be accommodated by the activation of slip systems and by grain rotations. The prismatic slip was the primary slip mode of the αp. From the analysis of kernel average misorientation and geometrically necessary dislocation, it was shown that the dislocations mainly distributed in the vicinity of grain and sub-grain boundaries, and part of the dislocations distributed around slip lines. It was the dislocation activities that led to the formation of the low angle grain boundary and its transformation to the high angle grain boundary. It's important that tracking of deformation heterogeneities with significance to performance. By analyzing the rotation angle, average rotation rate, and rotation path of grains, it was shown that grain rotation heterogeneity occurred during the deformation. From the observation of the loading direction, grain rotation paths kept with the texture evolution direction of all αp. The grains activated in the basal slip gradually rotated to the ⟨101¯1⟩ pole and enhanced the intensity of the ⟨101¯1⟩ texture. Meanwhile, the grains activated in prismatic or 1st-order pyramidal slip rotated to the ⟨101¯0⟩ pole and enhanced the intensity of the ⟨101¯0⟩ texture. Grain rotation and texture evolution are related to mechanical properties..
13. Shigeto Yamasaki, Tomo Okuhira, Masatoshi Mitsuhara, Hideharu Nakashima, Jun Kusui, Mitsuru Adachi, Effect of Fe addition on heat-resistant aluminum alloys produced by selective laser melting, Metals, 10.3390/met9040468, 9, 4, 2019.04, [URL], The effect of Fe addition on the high-temperature mechanical properties of heat-resistant aluminum alloys produced by selective laser melting (SLM) was investigated in relation to the alloy microstructures. Fe is generally detrimental to the properties of cast aluminum alloys; however, we found that Fe-containing alloys produced by SLM had improved high-temperature strength and good ductility. Microstructural observations revealed that the increase in the high-temperature strength of the alloys was due to the dispersion of fine rod-shaped Fe-Si-Ni particles unique to the SLM material instead of the cell-like structure of eutectic Si..
14. Kazuki Tonotsuka, Yoshikazu Todaka, Nozomu Adachi, Motohiro Horii, Kenichi Toda, Masatoshi Mitsuhara, Masumi Iwasaki, Yoshinori Shiihara, Yoshitaka Umeno, Minoru Nishida, Hideharu Nakashima, Effect of lattice defects on tribological behavior for high friction coefficient under TCP added PAO lubrication in nanostructured steels, Tetsu-To-Hagane/Journal of the Iron and Steel Institute of Japan, 10.2355/tetsutohagane.TETSU-2018-043, 105, 2, 160-167, 2019.02, [URL], Synopsis: The effect of lattice defects on the tribological behavior for high friction coefficient under tricresyl phosphate (TCP) added poly-α-olefin (PAO) lubrication was investigated in the nanostructured steels produced by heavy plastic deformation processes. In the surface-nanostructured SUJ2 bearing steel, the tribological behavior with high friction coefficient was observed in the ball-on-disk tests in comparison with the non-deformed steel. In addition, the similar phenomenon was observed in the ultra-low carbon (ULC) steel with high-density of lattice defects (grain boundary, dislocation and so on). By increasing the density of lattice defects, higher friction coefficient was shown. The reason of the tribo-logical behavior with high friction coefficient seems that the compound film of Fe-O-P system formed in the ball-on-disk test was worn..
15. Ken Takata, Kohsaku Ushioda, Kenji Kaneko, Ryutaro Akiyoshi, Ken ichi Ikeda, Satoshi Hata, Hideharu Nakashima, Solid solution hardening in supersaturated AlMgSi alloy, Materials Transactions, 10.2320/matertrans.MT-M2019190, 60, 12, 2525-2529, 2019.01, [URL], The yield strength and work hardening of AlMgSi alloys are related to the concentration of solute atoms. This study was carried out to clarify the effect of two kinds of solute atoms on these properties in terms of a linear combination of contributions from a solid solution. Tensile tests were conducted with Al and with Al0.62Mg0.32Si, Al0.65Mg0.81Si, Al2.4Mg, and Al4.4Mg (mass%) alloys in solid solution. Work hardening was analyzed using the KocksMecking model, yielding two parameters which indicate the storage and recovery of dislocations in the material. The yield strength could not be expressed as a linear combination of solute atom concentrations, but the amount of dislocation storage and dynamic recovery could be expressed as such linear combinations. In the high-strain region, the KocksMecking model no longer applies, and the maximum stress at which the model failed increased with increasing concentrations of solute atoms. It is generally known that an interaction between strain fields around solute atoms and quenched-in vacancies can affect the yield strength owing to dislocation motion and that these atoms can retard the development of microstructures in high-strain regions. A linear combination of contributions from solid solutions is possible only for the storage and recovery of dislocations in the low-strain region..
16. 高田 健, 潮田 浩作, 金子 賢治, 秋吉 竜太郎, 池田 賢一, 波多 聰, 中島 英治, 過飽和Al-Mg-Si合金における固溶強化挙動, Nippon Kinzoku Gakkaishi/Journal of the Japan Institute of Metals, 10.2320/jinstmet.J2018015, 82, 8, 314-318, 2018.08, [URL], The yield strength and work hardening of Al-Mg-Si alloys are related to the concentration of solute atoms. This study was carried out to clarify the effect of two kinds of solute atoms on these properties in terms of a linear combination of contributions from a solid solution. Tensile tests were conducted with Al and with Al-0.62Mg-0.32Si, Al-0.65Mg-0.81Si, Al-2.4Mg and Al-4.4Mg (mass%) alloys in solid solution. Work hardening was analysed using the Kocks–Mecking model, yielding two parameters which indicate the storage and recovery of dislocations in the material. The yield strength could not be expressed as a linear combination of solute atom concentrations, but the amount of dislocation storage and dynamic recovery could be expressed as such linear combinations. In the high-strain region, the Kocks–Mecking model no longer applies, and the maximum stress at which the model failed increased with increasing concentrations of solute atoms. It is generally known that an interaction between strain fields around solute atoms and quenched-in vacancies can affect the yield strength owing to dislocation motion and that these atoms can retard the development of microstructure in high-strain regions. A linear combination of contributions from solid solutions is possible only for the storage and recovery of dislocations in the low-strain region..
17. Yusuke Shimada, Satoshi Hata, Ken ichi Ikeda, Hideharu Nakashima, Akiyoshi Matsumoto, Kazumasa Togano, Hiroaki Kumakura, Infiltration behavior of molten Mg and its influence on microstructural evolution in SiC-doped MgB2 wires prepared by internal Mg diffusion process, Journal of Alloys and Compounds, 10.1016/j.jallcom.2018.01.012, 740, 305-311, 2018.04, [URL].
18. Ken Ichi Ikeda, Takuya Takashita, Ryutaro Akiyoshi, Satoshi Hata, Hideharu Nakashima, Kazuhiro Yamada, Kenji Kaneko, Effects of scandium and zirconium addition on recrystallization behavior of AlMgSi alloy, Materials Transactions, 10.2320/matertrans.L-M2018802, 59, 4, 590-597, 2018.01, [URL].
19. Shigeto Yamasaki, Masatoshi Mitsuhara, Hideharu Nakashima, Development of high-chromium ferritic heat-resistant steels with high nitrogen content, isij international, 10.2355/isijinternational.ISIJINT-2017-758, 58, 6, 1146-1154, 2018.01, [URL], New ferritic heat-resistant steels with high nitrogen content were prototyped and their microstructures and mechanical properties at high temperature were evaluated. The addition of 0.3 mass% N into ferritic steels was achieved without the formation of blowholes by applying pressurized melting methods under an atmosphere of up to 4.0 MPa. The high-nitrogen ferritic heat-resistant steels contained several kinds of nitrides within the lath martensitic structure. V-rich coarse particles were identified as crystallized MN. Fine VN or Cr
2
N particles were precipitated on the martensitic grain boundaries such as prior-austenite grain boundary, packet boundary, block boundary and lath boundary depending on the V content. The martensitic structure of the high-nitrogen steels contained a hierarchical microstructure including martensitic laths, blocks, packets, and prior-austenitic grains. These martensitic structures satisfied the Kurdjumov–Sachs relationship as with conventional carbon steel. The creep strengths of the prototyped steels were comparable with those of Gr. 91 steel, albeit lower than those of Gr. 92. Additional precipitates other than nitrides are required for further strengthening of the developed steels..
20. Ken Takata, Kohsaku Ushioda, Kenji Kaneko, Ryutaro Akiyoshi, Ken Ichi Ikeda, Satoshi Hata, Hideharu Nakashima, Solid solution hardening in supersaturated Al-Mg-Si alloy, Nippon Kinzoku Gakkaishi/Journal of the Japan Institute of Metals, 10.2320/jinstmet.J2018015, 82, 8, 314-318, 2018.01, [URL], The yield strength and work hardening of Al.Mg.Si alloys are related to the concentration of solute atoms. This study was carried out to clarify the effect of two kinds of solute atoms on these properties in terms of a linear combination of contributions from a solid solution. Tensile tests were conducted with Al and with Al.0.62Mg-0.32Si, Al.0.65Mg.0.81Si, Al.2.4Mg and Al.4.4Mg (mass%) alloys in solid solution. Work hardening was analysed using the Kocks .Mecking model, yielding two parameters which indicate the storage and recovery of dislocations in the material. The yield strength could not be expressed as a linear combination of solute atom concentrations, but the amount of dislocation storage and dynamic recovery could be expressed as such linear combinations. In the high.strain region, the Kocks .Mecking model no longer applies, and the maximum stress at which the model failed increased with increasing concentrations of solute atoms. It is generally known that an interaction between strain fields around solute atoms and quenched.in vacancies can affect the yield strength owing to dislocation motion and that these atoms can retard the development of microstructure in high.strain regions. A linear combination of contributions from solid solutions is possible only for the storage and recovery of dislocations in the low.strain region..
21. Masayuki Takano, Keiji Kuroda, Kohei Hase, Shuuto Tanaka, Shigeto Yamasaki, Masatoshi Mitsuhara, Hideharu Nakashima, Effect of Bi or Sb addition on high temperature deformation behavior in Sn-Cu-Ni solder alloys, Nippon Kinzoku Gakkaishi/Journal of the Japan Institute of Metals, 10.2320/jinstmet.J2017025, 81, 11, 502-509, 2017.09, [URL].
22. D. Hirakami, K. Ushioda, T. Manabe, K. Noguchi, K. Takai, Y. Hata, Satoshi Hata, Hideharu Nakashima, Change in the microstructure and mechanical properties of drawn pearlitic steel with low-temperature aging, 38th Riso International Symposium on Materials Science
IOP Conference Series: Materials Science and Engineering
, 10.1088/1757-899X/219/1/012026, 219, 1, 2017.08, [URL], Hydrogen embrittlement is a serious problem in high-strength steels. Drawn pearlitic steel shows excellent resistance to hydrogen embrittlement despite its high strength, and aging treatment at a low temperature can simultaneously improve its strength and hydrogen-embrittlement resistance. To clarify the mechanism for this we have used thermal desorption analysis (TDA) and the newly developed precession electron diffraction analysis method in the transmission electron microscope. After aging at 100 °C for 10 min, the amount of hydrogen seen amount on the TDA curve reduced at around 100 °C. In contrast, when aging was performed at 300 °C, the hydrogen amount further reduced at around 100 °C and the unevenly deformed lamellar ferrite zone was locally recovered. For the samples that were aged at the low temperature, we confirmed that their yield strength and relaxation stress ratios increased simultaneously with improvement in the hydrogen-embrittlement property. We infer that segregation of carbon or formation of very fine carbide in dislocations during aging is the cause of these behaviors..
23. Takanori Ito, Shigeto Yamasaki, Masatoshi Mitsuhara, Hideharu Nakashima, Minoru Nishida, Mitsuharu Yonemura, Microstructure and creep property in polycrystalline Ni-based alloy with intergranular intermetallics, Tetsu-To-Hagane/Journal of the Iron and Steel Institute of Japan, 10.2355/tetsutohagane.TETSU-2016-107, 103, 7, 434-442, 2017.07, [URL].
24. Shigeto Yamasaki, Masatoshi Mitsuhara, Hideharu Nakashima, Mitsuharu Yonemura, Evaluation of local creep strain in face-centred cubic heatresistant alloys using electron backscattered diffraction analysis, ISIJ International, 10.2355/isijinternational.ISIJINT-2016-712, 57, 5, 851-856, 2017.05, [URL].
25. Shigeto Yamasaki, Masatoshi Mitsuhara, Hideharu Nakashima, Deformation microstructure and fracture behavior in creep-exposed Alloy 617, Materials Transactions, 10.2320/matertrans.M2016407, 58, 3, 442-449, 2017.03, [URL].
26. Shigeto Yamasaki, Masatoshi Mitsuhara, Hideharu Nakashima, Development of high-chromium ferritic heat-resistant steels with high-nitrogen addition, Tetsu-To-Hagane/Journal of the Iron and Steel Institute of Japan, 10.2355/tetsutohagane.TETSU-2016-057, 103, 1, 64-72, 2017.01, [URL].
27. Masayuki Takano, Keiji Kuroda, Kohei Hase, Shuuto Tanaka, Shigeto Yamasaki, Masatoshi Mitsuhara, Hideharu Nakashima, Effect of Cu and Ni addition on high temperature deformation behavior in Sn-Cu-Ni solder alloys, Nippon Kinzoku Gakkaishi/Journal of the Japan Institute of Metals, 10.2320/jinstmet.J2016069, 81, 7, 337-344, 2017.01, [URL].
28. Wan song Li, Hong ye Gao, Hideharu Nakashima, Satoshi Hata, Wen huai Tian, In-situ EBSD study of deformation behavior of retained austenite in a low-carbon quenching and partitioning steel via uniaxial tensile tests, Materials Characterization, 10.1016/j.matchar.2016.06.020, 118, 431-437, 2016.08, [URL], 先進炭素鋼を変形させた際の微細組織変化を電子顕微鏡内のその場観察により明らかにした。.
29. Wan song Li, Hong ye Gao, Hideharu Nakashima, Satoshi Hata, Wen huai Tian, Microstructural evolution and mechanical properties of a low-carbon quenching and partitioning steel after partial and full austenitization, International Journal of Minerals, Metallurgy and Materials, 10.1007/s12613-016-1306-0, 23, 8, 906-919, 2016.08, [URL].
30. Jun jie SHEN, Ken ichi IKEDA, Satoshi Hata, Hideharu Nakashima, Primary-transient creep and anelastic backflow of pure copper deformed at low temperatures and ultra-low strain rates, Transactions of Nonferrous Metals Society of China, 10.1016/S1003-6326(16)64285-1, 26, 7, 1729-1735, 2016.07, [URL].
31. 中田伸生、池田賢一、首藤洋志、横井龍雄、土山聡宏、波多聰、中島英治、高木節雄, DP鋼の打抜き大変形の定量的評価とそのミクロ組織変化(第2報)−電子線後方散乱法とデジタル画像相間法を組み合わせたDP鋼の局所ひずみマッピング−, 鉄と鋼, 102, 5, 253-259, 2016.06.
32. D. HIRAKAMI, T. MANABE, K. USHIODA, K. NOGUCHI, K. TAKAI, Y. HATA, S. HATA, H. NAKASHIMA, Effect of Aging Treatment on Hydrogen Embrittlement of Drawn Pearlitic Steel Wire, ISIJ International, 56, 5, 893-898, 2016.05.
33. Daisuke Hirakami, Toshiyuki Manabe, Kohsaku Ushioda, Kei Noguchi, Kenichi Takai, Yoshinori Hata, Satoshi Hata, Hideharu Nakashima, Effect of aging treatment on hydrogen embrittlement of drawn pearlitic steel wire, ISIJ International, 10.2355/isijinternational.ISIJINT-2015-735, 56, 5, 893-898, 2016.05, [URL].
34. Nobuo Nakada, Ken Ichi Ikeda, Hiroshi Shuto, Tatsuo Yokoi, Toshihiro Tsuchiyma, Satoshi Hata, Hideharu Nakashima, Setsuo Takaki, Quantification of large deformation with punching in dual phase steel and change of its' microstructure - Part II
Local strain mapping of dual phase steel by a combination technique of electron backscatter diffraction and digital image correlation methods, Tetsu-To-Hagane/Journal of the Iron and Steel Institute of Japan, 10.2355/tetsutohagane.TETSU-2015-086, 102, 5, 253-259, 2016.05, [URL].
35. M. Mitsuhara, S. Yamasaki, M. Miake, H. Nakashima, M. Nishida, J. Kusumoto, A. Kanaya, Creep strengthening by lath boundaries in 9Cr ferritic heat-resistant steel, Philosophical Magazine Letters, 96, 2, 76-83, 2016.03.
36. W. Li, H. Gao, Z. Li, H. Nakashima, S. Hata, W. Tian, Effect of lower bainite/martensite/retained austenite triplex microstructure on the mechanical properties of a lowcarbon steel with quenching and partitioning process, International Journal of Minerals, Metallurgy, and Materials, 23, 3, 303-313, 2016.02.
37. S. Yamasaki, M. Mitsuhara, S. Hata, H. Nakashima, Multi-dimensional Quantification of Dislocation Substructure by SEM Electron Channeling Contrast Imaging Method, Microscopy, 64, S1, i35, 2015.11.
38. Y. Shimada, S. Hata, A. Matsumoto, H. Kumakura, A. Yamamoto, H. Nakashima, T. J. Konno, Effectiveness of multi-scale observations for polycrystalline superconducting materials, Microscopy, 64, S1, i61, 2015.11.
39. S. Hata, M. Shimizu, K. Ikeda, H. Nakashima, Electron Tomography Observation of Dislocation Morphology near Surfaces of Mo (001) Thin Foils, Microscopy, 64, S1, i13, 2015.11.
40. Y. Shimada, S. Hata, K. Ikeda, H. Nakashima, S. Matsumura, H. Tanaka, A. Yamamoto, J. Shimoyama, K. Kishio, Microstructural connectivity in sintered ex-situ MgB2 bulk superconductors, Journal of Alloys and Compounds, 656, 172-180, 2015.10.
41. Yusuke Shimada, Takato Kajihara, Satoshi Hata, Ken-ichi Ikeda, Hideharu Nakashima, Akiyoshi Matsumoto, Hitoshi Kitaguchi, Toshiya Doi, Microstructural Studies of the Effect of Heat-Treatment on Bi,Pb-2223 Films Prepared by RF Sputtering, IEEE TRANSACTIONS ON APPLIED SUPERCONDUCTIVITY, 25.0, 3.0, 2015.06.
42. Yusuke Shimada, Satoshi Hata, Ken-ichi Ikeda, Hideharu Nakashima, Syo Matsumura, Hiroya Tanaka, Akiyasu Yamamoto, Jun-ichi Shimoyama, Kohji Kishio, Microstructural Characteristics of Ball-Milled Self-Sintered Ex Situ MgB2 Bulks, IEEE TRANSACTIONS ON APPLIED SUPERCONDUCTIVITY, 25.0, 3.0, 2015.06.
43. 秋吉竜太郎、池田賢一、波多聰、中島英治、笠間丈史、高田健、高橋淳、潮田浩作、金子賢治, Al-0.62 mass% Mg-0.32 mass% Si合金の引張変形特性に及ぼす時効析出形態の影響, 日本金属学会誌, 79.0, 5.0, 273-279, 2015.05.
44. S. Yamasaki, M. Mitsuhara, K. Ikeda, S. Hata, H. Nakashima, 3D visualization of dislocation arrangement using scanning electron microscope serial sectioning method, Scripta Materialia, 101.0, 80-83, 2015.05.
45. 波多聰、光原昌寿、中島英治、池田賢一、佐藤和久、村山光宏、工藤博幸、宮崎伸介、古河弘光, 電子線トモグラフィーによる格子欠陥の三次元観察, 日本結晶学会誌, 57, 5, 276-284, 2015.05.
46. Yoji Miyajima, Shin-ya Komatsu, Masatoshi Mitsuhara, Satoshi Hata, Hideharu nakashima, Nobuhiro Tsuji?, Microstructural change due to isochronal annealing in severely plastic deformed commercial purity aluminium, Philosophical Magazine, 95.0, 11.0, 1139-1149, 2015.03.
47. Hata, Satoshi, Kazuhisa Sato, Mitsuhiro Murayama, Toshihiro Tsuchiyama, Hideharu Nakashima, An Experimental Protocol Development of Three-Dimensional Transmission Electron Microscopy Methods for Ferrous Alloys: Towards Quantitative Microstructural Characterization in Three Dimensions, ISIJ International, 55.0, 3.0, 623-631, 2015.03.
48. H. Gao, K. Ikeda, T. Morikawa, K. Higashida, H. Nakashima, Analysis of kink boundaries in deformed synchronized long-period stacking ordered magnesium alloys, MaterialsLetters, 146, 30-33, 2015.02.
49. 平上大輔、真鍋敏之、潮田浩作、野口慧、高井健一、羽田佳哲、波多聰、中島英治, 伸線パーライト鋼の耐水素脆化特性に及ぼす時効処理の影響, 鉄と鋼, 101.0, 1.0, 59-64, 2015.01.
50. 池田賢一、宮田幸昌、吉原隆浩、高田尚記、中島英治, 6111アルミニウム合金のリジング特性に及ぼす加工熱処理の影響とCube方位粒形成過程, 軽金属, 64.0, 8.0, 353-360, 2014.08, Al–Mg–Si alloys are suitable materials for automotive body application because of a good formability, a good corrosion resistance and a satisfactory strengthening. However, it is well known that when some kinds of Al–Mg–Si alloy sheets are stretched along the transverse direction, rope-like profiles (ridging/roping) parallel to the rolling direction develop on the surface. The purpose of this study is to clarify the ridging development in Al–Mg–Si alloy (6111 aluminum alloy). The effect of thermo-mechanical treatment on ridging development was investigated by 3D profile microscope and SEM/EBSD method. Rope-like profiles tended to develop remarkably in the hot-rolled and intermediate-annealed sheets. In highly ridging developed sample, there were many bands of cube-oriented grains (cube bands). Therefore, in this study, the cube-oriented grain formation process was also investigated by SEM/
EBSD and TEM observation. Microstructure observations revealed that cube-oriented grains formed during the hot rolling process could remain due to rod-like precipitates in grain. And then, these cube-oriented grains were grown along the rolling direction during the intermediate annealing. Crystal orientation analysis shows the stored energy of the cube-oriented grains in the cold rolled sheet was lower than that of other-oriented grains. Therefore, we concluded that cube bands are preferentially formed during solutionized treatment..
51. 波多聰, 佐藤和久、村山光宏、土山聡宏、中島英治, 鉄鋼材料における定量的三次元組織解析手法の検討:電子線トモグラフィーの強磁性材料への適用に向けて, 鉄と鋼, 100.0, 7.0, 889-896, 2014.07.
52. Shigeto Yamasaki, Masatoshi Mitsuhara, Ken-ichi Ikeda, Satoshi Hata, Hideharu Nakashima, Low-Stress Creep Deformation in Long-Term Aged Ferritic Heat-Resistant Steel, Materials Transactions, Vol.55, pp.842-849, 2014.05.
53. 山﨑 重人, 光原 昌寿, 池田 賢一, 波多 聰, 中島 英治, コイルばねクリープ試験法により評価した高Crフェライト系耐熱鋼の低応力クリープ変形, 鉄と鋼, Vol.100, pp.688-695, 2014.05.
54. P. S. Ghosh, A. Arya, U. D. Kulkarni, G. K. Dey, Satoshi Hata, T. Nakano, K. Hagihara, H. Nakashima, Ab-initio study of long-period superstructures and anti-phase boundaries in Al-rich γ-TiAl (L10) based alloys, Philosophical Magazine, 94.0, 11.0, 1202-1218, 2014.03.
55. Shigeto Yamasaki, Masatoshi Mitsuhara, Ken-ichi Ikeda, Satoshi Hata, Hideharu Nakashima, Mitsuharu Yonemura, Evaluation of creep strain in austenitic heat-resistant steel by local crystallographic orientation analysis, Proceedings of 6th International 'HIDA' Conference (HIDA-6), S9-3, 2013.12.
56. Hajime Matsuo, Ken-ichi Ikeda, Satoshi Hata, Hideharu Nakashima, H. Yamada, C. N. Xu, Phase transformation behavior and pseudoelastic deformation in SrAl2O4, JOURNAL OF ALLOYS AND COMPOUNDS, 10.1016/j.jallcom.2012.04.009, 577, S507-S516, 2013.11.
57. Yusuke Shimada, Yuuki Kubota, Satoshi Hata, Ken-ichi Ikeda, Hideharu Nakashima, Toshiya Doi, Takanori Fujiyoshi, Influences of Microstructure on Critical Current Properties in MgB2/Al Film, IEEE TRANSACTIONS ON APPLIED SUPERCONDUCTIVITY, 10.1109/TASC.2013.2238284, 23, 3, 2013.06.
58. GAO HONGYE, Ken-ichi Ikeda, Tatsuya Morikawa, Kenji Higashida, Hideharu Nakashima, Microstructures of Long-Period Stacking Ordered Phase of Mg-Zn-Y Alloy, MATERIALS TRANSACTIONS, 10.2320/matertrans.MI201219, 54, 5, 632-635, 2013.05.
59. T. Kajihara, Y. Shimada, S. Hata, K. Ikeda, H. Nakashima, A. Matsumoto, T. Mochiku, H. Kitaguchi, T. Doi, Formation of Bi,Pb-2223 and Microstructural evolution in Pb-Ca-Cu deposited Bi-2212(001) single crystal by heat treatment, Physics Procedia, doi: 10.1016/j.phpro.2013.04.054, 45, 69-72, 2013.03.
60. Junjie Shen, Ken-ichi Ikeda, Satoshi Hata, Hideharu Nakashima, “Abnormal transient creep” in fine-grained Al-5356 alloy observed at low strain rates by high-resolution strain measurement, Transactions of Nonferrous Metals Society of China, DOI: 10.1016/S1003-6326(13)62585-6, 23, 1209-1214, 2013.03.
61. Junjie Shen, Ken-ichi Ikeda, Satoshi Hata, Hideharu Nakashima, A new deformation region and how low do you go? – “intrinsic deformation limit”, Materials Science Forum, 747-748, 559-563, 2013.02.
62. Ryosuke Imamura, Satoshi Hata, Ken-ichi Ikeda, Hideharu Nakashima, Shinji Yamamoto, Toshihiro Tsuchiyama, Akama Daichi, Satoshi Morooka, Mitsuhiro Murayama, Deformation of Cu Precipitates in Cold-Rolled Fe-Cu Alloy, Proc. 14th Cross Straits Symp. Mater. Ener. Environ. Sci. Tech (CSS-EEST14), 81-82, 2013.02.
63. Satoshi Hata, Harini Sosiati, Yusuke Shimada, Akiyoshi Matsumoto, Ken-ichi Ikeda, Hideharu Nakashima, Hitoshi Kitaguchi, Hiroaki Kumakura, Imperfection of microstructural control in MgB2 superconducting tapes fabricated using an in-situ powder-in-tube process: toward practical applications, JOURNAL OF MATERIALS SCIENCE, 10.1007/s10853-012-6901-5, 48, 1, 132-139, 2013.01.
64. Satoshi Hata, Harini Sosiati, Yusuke Shimada, Akiyoshi Matsumoto, Ken-ichi Ikeda, Hideharu Nakashima, Hitoshi Kitaguchi, Hiroaki Kumakura, Imperfection of microstructural control in MgB2 superconducting tapes fabricated using an in-situ powder-in-tube process: toward practical applications, JOURNAL OF MATERIALS SCIENCE, 10.1007/s10853-012-6901-5, 48, 1, 132-139, 2013.01.
65. Shigeto Yamasaki, Masatoshi Mitsuhara, Ken-ichi Ikeda, Satoshi Hata, Hideharu Nakashima, Creep behavior at ultra-low strain rate in 9% Cr steel studied by helical spring creep test, Proceedings of the 12th International Conference on Creep and Fracture of Engineering Materials and Structures (Creep2012), B33, 2012.10.
66. Ken-ichi Ikeda, Sota Goto, Tomoaki Shibata, Motoki Takasuga, Satoshi Hata, Hideharu Nakashima, Hiroyuki Omura, High temperature deformation behavior of die-cast Mg-Al-Ca-Sn alloys, Proceedings of the 12th International Conference on Creep and Fracture of Engineering Materials and Structures (Creep2012), C43, 2012.10.
67. Shigeto Yamasaki, Masatoshi Mitsuhara, Ken-ichi Ikeda, Satoshi Hata, Hideharu Nakashima, Low stress creep deformation behavior of ferritic heat-resistant steel subjected to long-term aging, New Methods of Damage and Failure Analysis of Structural Parts, 468-472, 2012.09.
68. Ken-ichi Ikeda, Ryutaro Akiyoshi, Takuya Takashita, Masatoshi Mitsuhara, Satoshi Hata, Hideharu Nakashima, Kazuhiro Yamada, Kenji Kaneko, Precipitation morphology in Al-Mg-Si-Sc-Zr hot-rolled sheet, Proc. of 13th International Conference on Aluminum Alloys (ICAA13), 1181-1185, 2012.06.
69. Ryutaro Akiyoshi, Ken-ichi Ikeda, Mitsuhara Masatoshi, Satoshi Hata, Hideharu Nakashima, Ken Takata, Makoto Saga, Kohsaku Ushioda, Kenji Kaneko, Masao Kikuchi, Precipitation morphology and tensile properties of Al-0.62Mg-0.32Si alloy aged at low temperature, Proc. of 13th International Conference on Aluminum Alloys (ICAA13), 1229-1234, 2012.06.
70. 庄 篤史, 池田 賢一, 波多 聰, 中島 英治, オーステナイト系耐熱鋼のクリープ破断強度と時効後靱性におよぼす窒素の影響, 鉄と鋼, 98, 4, 117-124, 2012.05.
71. R.Akiyoshi, T.Takashita, K.Ikeda, S.Hata, H.Nakashima, Effect of scandium and zirconium addition on recrystallization behavior of Al-Mg-Si alloy, Proc. 13th Cross Straits Symp. Mater. Ener. Environ. Sci., 203-204, 2011.11.
72. Y.Kamiyama, S.Yamasaki, M.Mitsuhara, K.Ikeda, S.Hata, H.Nakashima, M.Yonemura, Creep property and microstructure of heat-resistant austenitic steels strengthened by intermetallic compounds, Proc. 13th Cross Straits Symp. Mater. Ener. Environ. Sci., 189-190, 2011.11.
73. T.Kajihara, S.Hata, K.Ikeda, H.Nakashima, Texture analysis in polycrystalline SmBa2Cu3Oy superconducting film by hybrid microscopy observation, Proc. 13th Cross Straits Symp. Mater. Ener. Environ. Sci., 165-166, 2011.11.
74. S.Yamasaki, R.Imamura, M.Mitsuhara, K.Ikeda, S.Hata, H.Nakashima, H.Watanabe, A.Kanaya, Assessment of creep degradation in ferritic heat-resistant steel by electron diffraction, Proc. 13th Cross Straits Symp. Mater. Ener. Environ. Sci., 53-54, 2011.11.
75. J.Shen, K.Ikeda, S.Hata, H.Nakashima, Creep Mechanisms in a Fine-Grained Al-5356 Alloy at Low Stress and High Temperature, Mater. Trans., 52, 10, 1890-1898, 2011.10.
76. J.Shen, K.Ikeda, S.Hata, H.Nakashima, Transient Creep in High-Purity Aluminum at Ultra-Low Strain Rate and Room Temperature by Constant Stress and Changing-Stress Experiments, Mater. Trans., 52, 10, 1885-1889, 2011.10.
77. J.Shen, S.Yamasaki, K.Ikeda, S.Hata, H.Nakashima, Low-Temperature Creep at Ultra-Low Strain Rates in Pure Aluminum Studied by a Helicoid Spring Specimen Technique, Mater. Trans., 52, 7, 1381-1387, 2011.07.
78. S.Hata, H.Miyazaki, S.Miyazaki, M.Mitsuhara, M.Tanaka, K Kaneko, K.Higashida, K.Ikeda, H.Nakashima, S.Matsumura, J.S.Barnard, J.H.Sharp, P.A.Midgley, High-angle triple-axis specimen holder for three-dimensional diffraction contrast imaging in transmission electron microscopy, Ultramicroscopy, 111, 8, 1168-1175, 2011.07.
79. 光原昌寿、原田絵梨香、山﨑重人、池田賢一、波多聰、中島英治、大塚智史、皆藤威二, 酸化物分散強化9Crフェライト系耐熱鋼の3次元組織と高温強度, 可視化情報学会誌, 31, 122, 98-103, 2011.07.
80. J.Shen, K.Ikeda, S.Hata, H.Nakashima, Creep behavior in a fine-grained Al-5356 alloy at low stress and intermediate temperature, 九州大学総理工報告, 33, 1, 1-6, 2011.06.
81. Y.Shimada, Y.Kubota, S.Hata, K.Ikeda, H.Nakashima, A.Matsumoto, K.Togano, J.Hur, H.Kumakura, Microstructure in high-density MgB2 wires prepared by an internal Mg diffusion method, IEEE Transactions on Applied Superconductivity, 21, 3, 2668-2671, 2011.06.
82. Y.Shimada, Y.Kubota, S.Hata, K.Ikeda, H.Nakashima, A.Matsumoto, K.Togano, H.Kumakura, Electron microscopy observation of MgB2 wire prepared by an internal Mg diffusion method, Physica C, 471, 1137-1141, 2011.05.
83. H. Gao, K. Ikeda, S. Hata, H. Nakashima, D. Wang, H. Nakashima, Measurement of strain and strain relaxation in freestanding Si membranes by convergent beam electron diffraction and finite element method, Acta Materialia, 2011.02.
84. H. Gao, K, Ikeda, S, Hata, H. Nakashima, D. Wang, H. Nakashima, Microstructure and strain distribution in strained freestanding Si membrane, Proc. The 17th International Microscopy Congress, (IMC17), (2010), 2010.09.
85. S. Hata, M. Mitsuhara, M. Tanaka, K. Kaneko, K. Higashida, K. Ikeda, H. Nakashima, T. Daio, S. Matsumura, Development of 3D TEM imaging techniques using diffraction contrast, Proc. The 17th International Microscopy Congress, (IMC17), (2010), 2010.09.
86. M. Mitsuhara, S. Hata, K. Ikeda, H. Nakashima, M. Tanaka, K. Higashida, Three-dimensional evaluation of dislocation arrangements using electron tomography in austenitic steel, Proc. 31st Riso International Symposium on Materials Science: Challenges in materials science and possibilities in 3D and 4D characterization techniques,, 2010.09.
87. K. Ikeda, K. Terada, M. Mitsuhara, S. Hata, H. Nakashima, K. Tanaka, M. Saga, J. Takahashi, K. Ushioda, K. Kaneko, M. Kikuchi, Effects of Clusters and Precipitates on Tensile Properties in Al-Mg-Si Alloys, Proc. The 12th International Conference of Aluminium Alloys, (ICAA12), (2010), 2246-2251, 2010.09.
88. K. Takata, J. Takahashi, M. Saga, K. Ushioda, K. Ikeda, M. Mitsuhara, K. Terada, S. Hata, H. Nakashima, K. Kaneko, M. Kikuch, Analysis of Yield Strength for Isothermal Aged Al-Mg-Si Alloys, Proc. The 12th International Conference of Aluminium Alloys, (ICAA12), (2010), 1179-1183, 2010.09.
89. Yoji Miyajima, Shin-Ya Komatsu, Masatoshi Mitsuhara, Satoshi Hata, Hideharu Nakashima, Nobuhiro Tsuji, Change in electrical resistivity of commercial purity aluminium severely plastic deformed, Philos. Mag., 90(2010), 4475-4488, 2010.09.
90. Hongye Gao, Ken-ichi Ikeda, Satoshi Hata, Hideharu Nakashima, Dong Wang, Hiroshi Nakashima, Microstructure and strain distribution in freestanding Si membrane strained by SixNy deposition, Mater. Sci. Eng., 527(2010), 6633-6637, 2010.07.
91. Hongye Gao, Ken-ichi Ikeda, Satoshi Hata, Hideharu Nakashima, Dong Wang, Hiroshi Nakashima, Strain distribution in freestanding Si/SixNy membranes studied by transmission electron microscopy, Thin Solid Films, 518(2010), 6787-6791, 2010.06.
92. S. Hata, H. Sosiati, Y. Shimada, T. Doi, A. Matsumoto, H. Kitaguchi, K. Ikeda, H. Nakashima, Microstructure in MgB2/Ni alternately-layered superconducting film, AMTC Letters, ,2(2010), 268-269, 2010.06.
93. 波多聰、光原昌寿、田中將己、宮崎裕也、池田賢一、金子賢治、中島英治、東田賢二、松村晶, 電子線トモグラフィーによる格子欠陥の3次元可視化, まてりあ,, 49(6)(2010), 274-279, 2010.06, 本論文では、結晶性材料に電子線トモグラフィー法を適用して、材料の強度などをつかさどる格子欠陥を3次元的に可視化する手法ならびに観察結果を示している。.
94. 石橋正博、藤本健資、池田賢一、波多聰、中島英治, コイルばねクリープ試験法によるSn系はんだ合金の低応力域における高温変形挙動, 日本金属学会誌, 73(5), 373-380 (2009)., 2010.05.
95. 嶋田雄介、大橋徹也、波多聰、池田賢一、中島英治、望月利彦、下山淳一、堀井滋、岸尾光二, Premix-PICT拡散法で作製したMgB2超伝導バルク体の臨界電流特性に及ぼす微細組織の影響, 低温工学, 44(12), 613-620 (2009)., 2009.12.
96. 波多聰、池田賢一、中島英治、谷川昌弘、石本卓也、中野貴由, FIBによる生体硬組織薄膜化とTEM観察, まてりあ, 48(12), 620 (2009)., 2009.12.
97. 松尾孟、池田賢一、波多聰、中島英治, α-アルミナ単結晶における破面の3D電子線トモグラフィー, まてりあ, 48(12), 612 (2009)., 2009.12.
98. 池田賢一、高下拓也、光原昌寿、波多聰、中島英治、山田和広、金子賢治, ScとZrを複合添加したAl-Mg-Si系合金熱間圧延板に形成する析出物の形態, まてりあ, 48(12), 611 (2009)., 2009.12.
99. 光原昌寿、波多聰、池田賢一、中島英治、田中將己, 2種類の回折条件を用いた転位組織の3次元可視化, まてりあ, 48(12), 610 (2009)., 2009.12.
100. 波多聰、池田賢一、中島英治、ハリニソシアティ、束野豊、土井俊哉、山下裕生、白き, 電子ビーム蒸着法で作製したMgB2超伝導薄膜の微細組織の組成依存性, 九州大学超高圧電顕室研究報告, pp.97-98, (2009), 2009.11.
101. 谷川昌弘、波多聰、池田賢一、中島英治、石本卓也、中野貴由広、金子賢治, 生体硬組織におけるアパタイトナノ結晶の結晶方位配向化, 九州大学超高圧電顕室研究報告, pp.95-96, (2009), 2009.11.
102. 高下拓也、池田賢一、光原昌寿、波多聰、中島英治、山田和広、金子賢治, Sc, Zr複合添加Al-Mg-Si系合金板の微細組織変化, 九州大学超高圧電顕室研究報告, pp.93-94, (2009), 2009.11.
103. 山田和広、金子賢治、高下拓也、池田賢一、中島英治, スカンジウム・ジルコニウム添加Al-Mg-Si合金の時効硬化と微細組織, 九州大学超高圧電顕室研究報告,, pp.55-56, (2009), 2009.11.
104. Tomoaki Isobe, Masatoshi Mitsuhara, Ken-ichi Ikeda, Satoshi Hata, Hideharu Nakashima, Yoshikazu Todaka, Minoru Umemoto, Electron Microscopy Observation of Pure Copper Deformed by High Pressure Torsion, Annual Reports of HVEM Laboratory Kyushu University,, pp. 31-32, (2009), 2009.11.
105. S. Yamasaki, M. Mitsuhara, K. Ikeda, S. Hata, H. Nakashima, Evaluation of Low Rate Creep Behavior in Stainless Steel by Herical Spring Creep Test, Proc. 11th Cross Straits Symp. Mater. Ener. Environ. Sci, pp. 114-116, (2009)., 2009.11.
106. Y. Shimada, T. Ohashi, S. Hata, K. Ikeda, H. Nakashima, T. Mochizuki, J. Shimoyama, K. Kishio, Influences of Fabrication Conditions on Superconducting Properties of High- Density MgB2 Bulks, Proc. 11th Cross Straits Symp. Mater. Ener. Environ. Sci, pp. 114-116, (2009)., 2009.11.
107. K. Oshibuchi, M. Mitsuhara, K. Ikeda, S. Hata, H. Nakashima, S. Ohtsuka, Creep Behavior of Oxide Dispersion Strengthened-9Cr Ferritic Steels under High-Temperature and Low-Stresses Conditions, Proc. 11th Cross Straits Symp. Mater. Ener. Environ. Sci, pp. 110-111, (2009)., 2009.11.
108. Yutaka Tsukano, Toshiya Doi, Hiroki Yamashita, Akira Tanaka, Ikumi Iwasaki, Yoshinori Hakuraku, Hitoshi Kitaguchi, Ken-ichiro Takahashi, Harini Sosiati, Satoshi Hata, Ken-ichi Ikeda, Hideharu Nakashima, Fabrication of multilayered MgB2/Ni thin films and their flux pinning properties, IEEE, Transactions on Applied Superconductivity,, 19(3), 2807-2810 (2009)., 2009.05.
109. 山下裕生、土井俊哉、束野豊、岩崎育美、田中章、白樂義則、北口仁、高橋健一郎、Harini Sosiati、波多聰、池田賢一、中島英治, MgB2/B多層膜の作製と超伝導特性, 低温工学, 44(3), 126-133 (2009)., 2009.03.
110. 富田成明、浜島和雄、光原昌寿、池田賢一、波多聰、中島英治, 酸化物分散強化白金合金の高温疲労破壊, 九州大学大学院総合理工学報告, 30(4), 396-401 (2009)., 2009.03.
111. 波多聰、光原昌寿、池田賢一、中島英治、土山聡宏、高木節雄, 走査透過電子顕微鏡による鉄鋼材料の中・低倍率観察の有用性, 金属, 79(1), 33-38 (2009)., 2009.01.
112. 池田賢一、高田尚記、波多聰、中島英治, その場加熱SEM/EBSD法による純アルミニウム箔の再結晶挙動の解析, 九州大学中央分析センター報告, 、26号 (2008), 8-14., 2008.11.
113. T.Ishobe, M.Mitsuhara, K.Ikeda, S.Hata, H.Nakashima, Y.Todaka, M.Umemoto, Electron Microscopy Observation of Pure Copper Deformed by High Pressure Torsion, Proceedings of International Symposium on Giant Straining Process for Advanced Materials (GSAM-2008),, (2008), 83-84., 2008.11.
114. J.Yamada, H.Fujiwara, K.Ameyama, S.Hata, H.Nakashima, K.Ikeda, Effects of Cryogenic Mechanical Milling on Microstructure in Metallic Powders, Proceedings of International Symposium on Giant Straining Process for Advanced Materials (GSAM-2008),, (2008), 69, 2008.11.
115. S.Ii, N.Takata, K.Ikeda, H.Nakashima, N.Tsuji, Asymmetric Grain Boundaries Observed in Ultrafine Grained Aluminum by ARB Process, Proceedings of International Symposium on Giant Straining Process for Advanced Materials (GSAM-2008),, (2008), 64-65., 2008.11.
116. H.Nakashima, T.Ishobe, S.Hata, K.Ikeda, T.Shimokawa, Grain Boundary of SPD Material - TEM and MD Structures -, Proceedings of International Symposium on Giant Straining Process for Advanced Materials (GSAM-2008),, (2008), 24-25., 2008.11.
117. M.Mitsuhara, M.Tanaka, K.Ikeda, S.Hata, H.Nakashima, Three-dimensional imaging of dislocations in steel using STEM tomography, Korean Journal of Microscopy, Supplement,, Vol. 38 No. 4 (2008), 223-224., 2008.11.
118. 光原昌寿、森岡真也、波多聰、池田賢一、中島英治, フェライト系耐熱鋼の3次元・結晶学組織, 耐熱金属材料123委員会研究報告, 49巻 3号 (2008), 353-361., 2008.11.
119. 束野豊、土井俊哉、山下裕生、白樂義則、北口仁、高橋健一郎、Harini Sosiati、波多聰、池田賢一、中島英治, 組成を変化させて作製したMgB2+X薄膜の超伝導特性, 低温工学, 43巻 11号 (2008), 482-490., 2008.11.
120. 波多聰、木村耕輔、光原昌寿、田中將己、宮崎裕也、高紅叶、松山加苗、松村晶、東田賢二、池田賢一、中島英治、森谷智一、土井稔, 電子線トモグラフィーによる結晶材料組織の3次元可視化, ふぇらむ、, 13巻 11号 (2008), 719-726., 2008.11.
121. 池田賢一、高田尚記、宮田幸昌、波多聰、中島英治, その場加熱EBSD法による純アルミニウム箔の再結晶過程の解析, 九州大学超高圧電顕室研究報告、, 32号 (2008), 72-73., 2008.08.
122. 光原昌寿、池田賢一、波多聰、中島英治、若井隆純, V,Nb添加10Crフェライト系耐熱鋼中の析出物の3次元形態観察, 九州大学超高圧電顕室研究報告、, 32号 (2008), 72-73., 2008.08.
123. S.Ii, Y.Takaki, K.Ikeda, H.Nakashima, H.Nakashima, Microstructural change of dislocation structure around SiGe/Si interface in SGOI wafer with ramping process, Thin Solid Films,, Vol. 517 (2008), 38-40., 2008.08.
124. S.Ii, M.Hishida, N.Takata, K.Ikeda, H.Nakashima, N.Tsuji, Grain Boundary Structures of ARB Processed Aluminum, Mater. Sci. Forum,, Vol. 584-586 (2008), 716-721., 2008.08.
125. 大橋徹也、波多聰、池田賢一、中島英治、山本明保、下山淳一、堀井滋、岸尾光二, 18Cr-9Ni-3Cu-Nb-N鋼のクリープ変形に伴う組織変化とそのクリープ破壊への影響, 低温工学, 43巻 8号 (2008), 342-348., 2008.08.
126. 光原昌寿、田中將己、波多聰、池田賢一、中島英治, 電子線トモグラフィー法によるSUS316L鋼中の転位の3次元形態観察, 耐熱金属材料123委員会研究報告、, 49巻 2号 (2008), 143-150., 2008.06.
127. 光原昌寿、池田賢一、波多聰、中島英治、若井隆純, V添加高強度耐熱鋼におけるラス境界析出物のEDS分析と3次元形態観察, まてりあ、, 47巻 6号 (2008), 301., 2008.06.
128. S.Ii, T.Hirota, K.Fujimoto, Y.Sugimoto, N.Takata, K.Ikeda, H.Nakashima, H.Nakashima, Direct Evidence of Polycrystalline Silicon Thin Films Formation during Aluminum Induced Crystallization by In-Situ Heating TEM Observation, Mater. Trans., ., Vol. 49 No. 4 (2008), 723-727, 2008.04.
129. 光原昌寿、寺田大将、池田賢一、中島英治, 9Crフェライト系耐熱鋼のΩ法解析とクリープ強化機構のΩ値への影響, 鉄と鋼, 94巻 3号 (2008), 27-33., 2008.03.
130. 池田賢一、廣田健、藤本健資、杉本陽平、高田尚記、井誠一郎、中島英治、中島寛, AIC法による低温多結晶シリコン薄膜形成挙動の微細構造解析, 信学技報、, 108巻 1号 (2008), 95-100., 2008.01.
131. 藤本健資、石橋正博、山﨑重人、池田賢一、波多聰、中島英治, コイルバネクリープ試験法による低応力下でのクリープ変形挙動解析, 耐熱金属材料123委員会研究報告, 49巻 1号 (2008), 39-44., 2008.01.
132. .Ikeda, K.Yamada, N.Takata, F.Yoshida, H.Nakashima, N.Tsuji, Grain Boundary Structure of Ultrafine Grained Pure Copper Fabricated by Accumulative Roll Bonding, Mater. Trans, Vol. 49 No. 1 (2008), 24-30., 2008.01.
133. .Ikeda, K.Yamada, N.Takata, F.Yoshida, H.Nakashima, N.Tsuji, Grain Boundary Structure of Ultrafine Grained Pure Copper Fabricated by Accumulative Roll Bonding, Mater. Trans, Vol. 49 No. 1 (2008), 24-30., 2007.11.
134. M.Mitsuhara, Y.Yoshida, K.Ikeda, H.Nakashima, T.Wakai, Effects of Addition of V and Nb on W in High Cr Ferritic Steels, Mater. Sci. Forum, 2007.11.
135. N.Takata, K.Yamada, K.Ikeda, F.Yoshida, H.Nakashima, N.Tsuji, Change in Microstructure and Texture during Annealing of Pure Copper Heavily Deformed by Accumulative Roll Bonding, Mater. Trans., 48,8,2043-2048, 2007.10.
136. 光原昌寿、池田賢一、波多聰、中島英治、若井隆純, 高Crフェライト系耐熱鋼の3次元電子線トモグラフィー観察, 耐熱金属材料123委員会研究報告:耐熱鋼分科会, 48,2,133-137, 2007.10.
137. 波多聰、池田賢一、中島英治、木村耕輔、H.Gao、松村晶、土井稔, Ni-Al-Ti合金におけるγ’粒子の相分離の3次元TEM観察, 耐熱金属材料123委員会研究報告:超合金分科会, 48,2, 2007.06.
138. M.Mitsuhara, Y.Yoshida, K.Ikeda, H.Nakashima, T.Wakai, Effect of Vanadium and Niobium on Creep Strength in 10% Chromium Steel Analyzed by STEM-EDS, Proc. of Creep8 Eighth International Conference on Creep and Fatiue at Elevated Temperatures, CREEP2007-26746, 2007.05.
139. N.Takata, K.Ikeda, H.Nakashima, N.Tsuji, In-situ EBSP Analysis of Grain Boundary Migration during Recrystallization in Pure Aluminum Foils, Mater. Sci. Forum, 558-559,351-356, 2007.04.
140. K.Ikeda, T.Yoshihara, N.Takata, H.Nakashima, Relation between Ridging and Texture Components in Al-Mg-Si Alloy, Mater. Sci. Forum, 558-559,71-76, 2007.04.
141. 光原昌寿、池田賢一、中島英治、早川弘之、楠元淳一、金谷章宏, 0.1C-18Cr-9Ni-3Cu-Nb,N鋼のクリープ変形に伴う組織変化とその破壊機構, 耐熱金属材料123委員会研究報告:耐熱鋼分科会, 48巻1号 P23-27, 2007.03.
142. 吉田悠、光原昌寿、池田賢一、中島英治、若井隆純, VおよびNb添加高Crフェライト系耐熱鋼の強化機構とΩ値の相関, 耐熱金属材料123委員会研究報告:耐熱鋼分科会, 48巻1号 P49-56, 2007.03.
143. 早川弘之、金谷章宏、楠元淳一、中島英治, 応力急変試験による耐熱鋼のクリープ変形機構の評価, 耐熱金属材料123委員会研究報告:耐熱鋼分科会, 48巻1号 P29-39, 2007.03.
144. 池田賢一、廣田健、藤本健資、杉本陽平、高田尚記、井誠一郎、中島英治、中島寛, アルミニウム誘起結晶化法による多結晶シリコン薄膜形成挙動のその場加熱観察, 日本金属学会誌, 71巻2号 P158-163, 2007.02.
145. 池田賢一、森田孝治、中島英治, モリブデン<001>Σ5非対称傾角粒界の原子構造, まてりあ, 45巻 12号 2006p 843, 2006.12.
146. 池田賢一、中島英治、廣田健、藤本健資、杉本陽平、高田尚記、井誠一郎、中島寛, アルミニウム誘起結晶化法による多結晶シリコン形成過程のその場加熱観察, まてりあ, 45巻 12号 2006P 906, 2006.12.
147. Y.Sugimoto, H.Adachi, K.Yamamoto, D.Wang, H.Nakashima, H.Nakashima, Electrical characterization of high-k gate dielectrics facricated using plasma oxidation and post-deposition annealing of a Hf/SiO2/Si structure, Materials Science in Semiconductor Processing, 9巻P1031-1036, 2006.11.
148. 池田賢一、中島英治、廣田健、藤本健資、杉本陽平、高田尚記、井誠一郎、中島寛, 極低速コイルばねクリープ試験法による高温変形挙動の評価, 耐熱金属材料123委員会研究報告:耐熱鋼分科会, 47巻 3号 2006 p323-328, 2006.11.
149. D.Wang, S.Ii, K.Ikeda, H.Nakashima, K.Matsumoto, M.Nakamae, H.Nakashima, Stress-induced phase transformation of CeO2 doped tetragonal ZrO2 polycrystal, Nucl. Instr. and Mech. in Phys. Res, B253 号 2006 p31-36, 2006.11.
150. M.Mitsuhara, K.Ikeda, H.Nakashima, H.Hayakawa, J.Kusumoto, A.Kanaya, Isothermal Phase Transformation in Austenitic Steel, Proc. of the 8th Cross Straits Symposium on Materials, Energy and Environmental Sciences, 2006 p53-54, 2006.11.
151. D.Wang, S.Ii, H.Nakashima, K.Ikeda, H.Nakashima, K.Matsumoto, M.Nakamae, Photoluminescence evaluation of defects generated during SiGe-on-insulator virtual substrate fabrication: Temperature ramping process, Appl. Phys. Lett., B253巻 p31-36, 2006.11.
152. D.Wang, S.Ii, K.Ikeda, H.Nakashima, H.Nakashima, Photoluminescence Evaluation of Defects Generated during Temperature Ramp-up Process of SiGe-On-Insulator Virtual Substrate Fabrication, 2006 8th International Conference on Solid-State and Integrated Circuit Technology Proceedings, 2006p2193-2195, 2006.10.
153. M.Tanaka, K.Higashida, H.Nakashima, H.Takagi, M.Fujiwara, Orientation dependence of fracture toughness measured by indentation methods and its relation to surface energy in single crystal silicon, Int. J. Fract, 139巻3-4号 2006 p383-394, 2006.10.
154. 池田賢一、廣田健、藤本健資、杉本陽平、高田尚記、井誠一郎、中島英治、中島寛, AIC法により作製される多結晶Si薄膜形成過程のその場観察, 九大超高圧電顕室研究報告, 30巻 2006p 73-74, 2006.10.
155. 太田恭平、波多聰、友清芳二、中島英治、池田賢一、土山聡宏、高木節雄, Fe-Cu合金における転位とCu粒子の相互作用のSTEM観察, 九大超高圧電顕室研究報告, 30巻 2006p 79-80, 2006.10.
156. S.Ii, K.Ikeda, H.Nakashima, K.Matsumoto, M.Nakamae, H.Nakashima, Transmission electron microscopy studies of misfit dislocation structure of Si/SiGe interface in SGOI wafer, Proceeding of 16th International Microscopy Congress(2006, 2006 1p469, 2006.09.
157. 吉田悠、光原昌寿、池田賢一、中島英治、若井隆純, 高Crフェライト系耐熱鋼のΩ法によるクリープ寿命評価とそのパラメータに及ぼすV・Nb添加量の効果, 耐熱金属材料123委員会研究報告:耐熱鋼分科会, 47巻2号 2006 p109-113, 2006.07.
158. 光原昌寿、池田賢一、中島英治、早川弘之、楠元淳一、金谷章宏, SUS321鋼の動的γ→α相変態挙動とそのクリープ破壊への影響, 耐熱金属材料123委員会研究報告:耐熱鋼分科会, 47巻 2号 2006 p155-160, 2006.07.
159. D.Wang, S.Ii, K.Ikeda, H.Nakashima, M.Ninomiya, M.Nakamae, H.Nakashima, Structural and electrrical evaluation for strained Si/SiGe on insulator, Thin Solid Films, 508巻 2006 p107-111, 2006.06.
160. 光原昌寿、寺田大将、池田賢一、吉田冬樹、中島英治、早川弘之, 2.25Cr-1Mo鋼HAZのクリープ変形中における組織変化, 九大総理工報告, 28巻1号 2006 p9-15, 2006.06.
161. 池田賢一、廣田健、藤本健資、杉本陽平、高田尚記、井誠一郎、中島英治、中島寛, AIC法により作製された多結晶シリコン薄膜形成過程, 電子情報通信学会技術報告, 106巻 5-7号 2006 p13-17, 2006.04.
162. 池田賢一、中島英治, EBSPによる方位組織解析, 材料開発のための顕微鏡法と応用写真集 日本金属学会, 2006 p27-31, 2006.03.
163. 池田賢一、黒木康洋、周致霆、中島英治, マグネシウム双晶界面の原子構造, 材料開発のための顕微鏡法と応用写真集 日本金属学会, P158, 2006.03.
164. M.Mitsuhara, D.Terada, H.Nakashima, LIFE ASSESMENT OF HEAT RESISTANT STEELS USING OMEGA METHOD, Proc. of FAILURES2006, 2006 p 287-297, 2006.02.
165. N.Takata, K.Yamada, K.Ikeda, F.Yoshida, H.Nakashima, N.Tsuji, Annealing Behavior and Recrystallized Texture in ARB Processed Copper, Mater. Sci. Forum, 503-504巻 2006 p919-924, 2006.01.
166. K.Ikeda, N.Takata, K.Yamada, F.Yoshida, H.Nakashima, N.Tsuji, Grain Boundary Structure in ARB Processed Copper, Mater. Sci. Forum, 503-504巻 2006 p 925-930, 2006.01.
167. 池田賢一、海江田裕介、児嶋伸浩、中島英治, α-Al2O3焼結体の亀裂進展経路のSEM/EBSP解析, まてりあ, 44巻12号 p993, 2005.12.
168. 水口隆、井誠一郎、中島寛、池田賢一、中島英治、二宮正晴、中前正彦, 次世代ひずみSi-SGOIウェーハの微細構造観察, まてりあ, 44巻12号 p2005 971, 2005.12.
169. N.Takata, F.Yoshida, K.Ikeda, H.Nakashima, H.Abe, Abnormal Grain Growth of Off-Cube Grains in High Purity Aluminum Foils with Cube Texture, Mater. Trans, 10.2320/matertrans.46.2975, 46, 12, 2975-2980, 46巻 12号 2005 P 2975-2980, 2005.12.
170. M.Mitsuhara, D.Terada, H.Nakashima, LIFE ASSESSMENT OF HEAT RESISTANT STEELS WITH OMEGA METHOD, Proc. of the 7th Cross Straits Symposium on Materials, Energy and Environmental Sciences, p121-122, 2005.11.
171. Y.Takaki, T.Mizuguchi, K.Ikeda, H.Nakashima, S.Ii, H.Nakashima, M.Ninomiya, M.Nakamae, NANO-STRUCTURE OBSERVATION OF STRAINED Si-SCOI WAFER BY TRANSMISSION ELECTRON MICROSCOPY, Proc. of the 7th Cross Straits Symposium on Materials, Energy and Environmental Sciences, p123-124, 2005.11.
172. 水口隆、高田尚記、池田賢一、中島英治, パラジウム対称傾角粒界の原子構造と電子状態, 日本金属学会誌, 69巻11号2005 P1010-1015, 2005.11.
173. 光原昌寿、池田賢一、中島英治、寺地巧、有岡孝司, SUS316鋼の高温変形に伴う粒界破壊機構, 耐熱金属材料123委員会研究報告:耐熱鋼分科会, 46巻2号 2005 P125-129, 2005.07.
174. Y.Sugimoto, N.Takata, T.Hirota, K.Ikeda, F.Yoshida, H.Nakashima, H.Nakashima, Low-Temperature Fabrication of Polycrystalline Si Thin Film Using Al-Induced Crystallization without Native Al Oxide at Amorphous Si/Al Interface, Jpn. J. Appl. Phys., 10.1143/JJAP.44.4770, 44, 7A, 4770-4775, 44巻 7A号 2005 P4770-4775, 2005.07.
175. M.Mitsuhara, K.Ikeda, H.Nakashima, T.Terachi, K.Arioka, Grain Boundary Fracture and Inhomogeneous Deformation of SUS316 Steels at High Temperature, Proceedings of 9th Ultra-Steel Workshop, 2005 P252-253, 2005.07.
176. T.Mizuguchi, S.Ii, R.Hayashi, K.Ikeda, H.Nakashima, H.Nakashima, M.Ninomiya, M.Nakamae, Transmission electron microscopy study of strained Si-SGOI wafer, 九大超高圧電顕室研究報告, 29号 P 31-32, 2005.04.
177. K.Ikeda, Y.Kuroki, J.T.Chou, H.Nakashima, Atomic Structure of Twin Boundary in Pure Magnesium, 九大超高圧電顕室研究報告, 29号 P 33-34, 2005.04.
178. 高田尚記、池田賢一、吉田冬樹、中島英治、阿部弘, 立方体集合組織を有する高純度アルミニウム箔中に存在する非立方体方位粒の特徴, 軽金属, Vol. 54 (No. 12), pp. 573-578, 2004.12.
179. 田中將己、東田賢二、中島英治、高木秀有、藤原雅美, シリコン結晶における破壊靭性値の方位依存性と表面エネルギー, 日本金属学会誌, Vol. 68 (No. 9), pp. 787-791, 2004.09.
180. N. Takata, T. Mizuguchi, K. Ikeda, H. Nakashima, Atomic and Electronic Structure of Symmetric Tilt Boundaries in Palladium, Mater. Trans., 10.2320/matertrans.45.2099, 45, 7, 2099-2105, Vol. 45 (No. 7), pp. 2099-2105, 2004.07.
181. N. Takata, K. Ikeda, F. Yoshida, H. Nakashima, H. Abe, Influence of Purity on the Formation of Cube Texture in Aluminum Foils for Electrolytic Capacitors, Mater. Trans., 10.2320/matertrans.45.1687, 45, 5, 1687-1692, Vol. 45 (No. 5), pp. 1687-1692, 2004.05.
182. 高田尚記、池田賢一、吉田冬樹、中島英治、阿部弘, 純銅対称傾角粒界における粒界エネルギーとその構造, 日本金属学会誌, Vol. 68 (No. 4), pp. 240-246, 2004.04.
183. 水口隆、池田賢一、吉田冬樹、中島英治、阿部弘, シリコン表面エネルギーの方位依存性の評価, 日本金属学会誌, Vol. 68 (No. 2), pp. 86-89, 2004.02.
184. 中島英治, 耐熱鋼の高温における強度と組織, 鉄と鋼, Vol. 90 (No. 2), pp. 73-78, 2004.02.
185. 周致霆、黒木康洋、池田賢一、吉田冬樹、中島英治、阿部弘, マグネシウム双晶境界のエネルギーとその原子構造の評価, 九大総理工報告, Vol. 26 (No. 3), pp. 333-336, 2004.01.
186. 周致霆、黒木康洋、池田賢一、吉田冬樹、中島英治, マグネシウムの(10-12)双晶境界構造, 耐熱金属材料123委員会研究報告, Vol. 45 (No. 3), pp. 263-266, 2004.01.
187. N. Tsuji, X. Huang, H. Nakashima, Microstructure of metals and alloys deformed to ultrahigh strains, Proc. of the 25th Riso Int. Symp. on Materials Science, pp. 147-170, 2004.01.
188. K. Ikeda, K. Yamada, N. Takata, F. Yoshida, H. Nakashima, N. Tsuji, Atomic structure of grain boundaries in ARB processed copper, Proc. of the 25th Riso Int. Symp. on Materials Science, pp. 357-362, 2004.01.
189. N. Takata, J. Higashi, K. Ikeda, F. Yoshida, H. Nakashima, Correlation between deformation microstructure and evolution of cube texture in heavily rolled copper, Proc. of the 25th Riso Int. Symp. on Materials Science, pp. 539-544, 2004.01.
190. F. Yoshida, K. Ikeda, N. Takata, H. Nakashima, Deformation substructure control for development of cube texture in aluminum foil for electrolytic capcacitors, Proc. of the 25th Riso Int. Symp. on Materials Science, pp. 571-576, 2004.01.
191. N. Takata, K. Ikeda, F. Yoshida, H. Nakashima, H. Abe, Grain Boundary Structure and its Energy of Symmetric Tilt Boundary in Copper, Mater. Sci. Forum, 467-470, 807-812, Vol. 467-470, pp. 807-812, 2004.01.
192. F. Yoshida, M. Uehara, K. Ikeda, H. Nakashima, H. Abe, Grain Boundary Migration of Tilt Σ11 and Σ27 Boundaries in Pure Aluminum, Mater. Sci. Forum, 467-470, 835-840, Vol. 467-470, pp. 835-840, 2004.01.
193. H. Nakashima, Change in Microstructure of Modified 9Cr-1Mo Martensitic Steel during Creep Deformation, Proc. of FAILURES2004, pp. 203-210, 2004.01.
194. 中島英治、寺田大将、光原昌寿, W含有先進耐熱鋼の余寿命予測のためのΩ解析, 耐熱金属材料123委員会研究報告, 2004.01.
195. L. Zhao, N. H. Luu, D. Wang, Y. Sugimoto, K. Ikeda, H. Nakashima, H. Nakashima, Low-Temperature Growth of Thin Silicon Nitride Film by Electron Cyclotron Resonance Plasma Irradiation, Jpn. J. Appl. Phys., 10.1143/JJAP.43.L47, 43, 1A-B, L47-L49, Vol. 43 (No. 1A/B), pp. L47-L49, 2004.01.
196. 竹松伸一、水口隆、中島英治、池田賢一、阿部弘, 分子動力学法によるα-Al2O3の表面エネルギーの計算とへき開破壊についての考察, 日本セラミックス協会, 2004.01.
197. 早川弘之、寺田大将、吉田冬樹、中島英治、後藤康史、, 改良型9Cr-1Mo鋼の応力急変試験による運動転位密度の評価, 鉄と鋼, 2003.09.
198. 高田尚記、池田賢一、吉田冬樹、中島英治、阿部弘, 電解コンデンサ用アルミニウム箔の立方体集合組織形成に及ぼす加工熱処理条件の影響, 軽金属, 2003.05.
199. M.Tanaka, K.Higashida, H.Nakashima, H.Takagi, M.Fujiwara, Fracture Toughness Evaluated by Indentation Methods and Its Relation to Surface Energy in Silicon Single Crystals, Mater. Trans., 10.2320/matertrans.44.681, 44, 4, 681-684, 2003.04.
200. 寺田大将、中島英治、吉田冬樹、早川弘之, マルテンサイト系耐熱鋼の高温変形機構, 耐熱金属材料123委員会研究報告, 2003.02.
201. K.Kawahara, S.Tsurekawa, H.Nakashima, Effect of Boron and Carbon Addition on High Temperature Deformation Behavior of β-Silicon Carbide, Mater. Sci. Forum, 304-3, 519-524, 1998.01.
202. K.Morita, H.Nakashima, Atomic Periodicity of Symmetric Tilt Boundary in Molybdenum, Mater. Sci. Eng., 10.1016/S0921-5093(97)00306-7, 234, 1053-1056, 1997.01.
203. H.Nakashima, M.Watase, H.Yoshinaga, Reliability of Experimental Values for Work-Hardening and Recovery Rates in Pure Aluminum during High-Temperature Deformation, Mater. Trans., JIM, 27, 2, 122-133, 1986.02.
204. 中島英治、渡瀬正美、吉永日出男, 純アルミニウムにおける加工硬化率と回復速度の測定値の信頼性, 日本金属学会誌, 1985.08.
205. N. H. Luu, L. Zhao, D. Wang, Y. Sugimoto, K. Ikeda, H. Nakashima, H. Nakashima, Optimization of Ar-diluted N2 electron cyclotron resonance plasma for high-quality SiN film growth at low temperature, 九大総理工報告, Vol. 26 (No. 1), pp. 1-8.
206. H.Ago, K.Nakamura, K.Ikeda, N.Uehara, N.Ishigami, M.Tsuji, Aligned growth of isolated single-walled carbon nanotubes programmed by atomic arrangement of substrate surface, Chemical Physics Letters, 408巻4-6号 2005 P 433-438.

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