年度業績 中嶋英雄 学術論文 解説記事 1. S. Ueno, H. Kobatake, H. Fukuyama, S. Awaji, and H. Nakajima, Formation of silicon hollow spheres via electromagnetic levitation method under static magnetic field in hydrogen argon mixed gas, Materials Letters, 63(6-7), 602-604, 2. S.Y. Kim, J.S. Park, H. Nakajima, Fabrication of Lotus-type Porous Aluminum through Thermal Decomposition Method, Metallurgical and Materials Transactions A, 40A(4), 937-942, 3. T. Ide, M. Tane, H. Nakajima, Compressive deformation behavior of porous g-tial with directional pores, Materials Science and Engineering A, 508(1-2), 220-225, 4. K. Alvarez, S.-K. Hyun, T. Nakano, Y. Umakoshi, H. Nakajima, In vivo osteocompatibility of lotus-type porous nickel-free stainless steel in rats, Materials Science and Engineering C, 29(4), 1182-1190, 5. S. Ueno, T. Akatsu, H. Nakajima, Fabrication of Porous Magnesium Spinel with Directional Pores by Unidirectional Solidification, Ceramics International, 35(6), 2469-2473, 6. M. Tane, H. Nakajima, Fabrication of Lotus-type Porous Aluminum Utilizing Decomposition of Moisture, Materials Transactions, 50(6), 1477-1481, 7. R. Nakamura, G. Matsubayashi, H. Tsuchiya, S. Fujimoto, H. Nakajima, Transition in the Nanoporous Structure of Iron Oxides during the Oxidation of Iron Nanoparticles and Nanowires, Acta Materialia, 57(14), 4261-4266, 8. H. Nakajima, R. Nakamura, Diffusion in Intermetallic Compounds and Fabrication of Hollow Nanoparticles through Kirkendall Effect, Journal of Nano Research, 7, 1-10, 9. S. Ueno, L.M. Lin, H. Nakajima, Effect of Silica on Formation of Porous Alumina during Unidirectional Solidification in Hydrogen Atmosphere, Materials Transactions, 50(8), 2011-2014, 10. 大西洋史, 上野俊吉, 中嶋英雄, 方向性気孔を有するポーラスニッケルの気孔形成に及ぼす NiO 粉末の添加効果, 日本金属学会誌, 73(8), 618-621, 11. R. Nakamura, G. Matsubayashi, H. Tsuchiya, S. Fujimoto, H. Nakajima, Formation of Oxide Nanotubes via Oxidation of Fe, Cu and Ni Nanowires and Their Structural Stability: Difference in Formation and Shrinkage Behavior of Interior Pores, Acta Materialia, 57(17), 5046-5052, 12. K. Alvarez, H. Nakajima, Metallic Scaffolds for Bone Regeneration, Materials, 2, 790-832, 13. M. Kashihara, H. Yonetani, T. Kobi, S. K. Hyun, S. Suzuki, H. Nakajima, Fabrication of Lotus-type Porous Carbon Steel via Continuous Zone Melting and Its Mechanical Properties,
Materials Science and Engineering A, 524(1-2), 112-118, 14. H. Chiba, T. Ogushi, H. Nakajima, S. Ueno, K. Torii, T. Tomimura, The Uncertainty in SCHF-DT Thermal Conductivity Measurements of Lotus-Type Porous Copper, Advanced Engineering Materials, 11(10), 848-851, 15. T.Wada, T.Ide, H. Nakajima, Fabrication of Porous Metals with Directional Pores through Thermal Decomposition of Chromium Nitride, Metallurgical and Materials Transactions A, 40A(13), 3204-3209, 16. T.B. Kim, S. Suzuki, H. Nakajima, "Effect of Conditions of Unidirectional Solidification on Microstructure and Pore Morphology of Al-Mg-Si Alloys", Materials Transactions, 51(3), 496-502, 2010 17. 井手拓哉, 中嶋英雄, 熱分解法により作製されたロータス銅の気孔形成に及ぼす TiH2 添加方法および添加量の影響, 銅と銅合金, 48(1), 96-99, 18. 仲村龍介 松林玄, 土谷博昭, 藤本慎司, 中嶋英雄, 銅ナノ粒子およびナノワイヤの酸化による中空構造の形成と構造安定性, 銅と銅合金, 48(1), 300-303, 19. 金泰範, 鈴木進補, 中嶋英雄, 一方向凝固した Al-Mg-Si 合金の気孔形態に及ぼすミクロ組織の影響, 軽金属, 59(12), 678-684, 20. J. Lobos, S. Suzuki,H. Utsunomiya, H. Nakajima, Structure Change and Improvement of the Mechanical Properties of Lotus-type Porous Copper by ECAE Process, Materials Science Forum, 620-622, 757-760, 21. H. Nakajima, T. Ide, S.-Y. Kim, Fabrication of Porous Metals with Directional Pores Through Solidification of Gas-dissolved Melt, Materials Science Forum, 620-622, 785-790, 22. S. Ueno, H. Kobatake, H. Fukuyama, S. Awaji, H. Nakajima, Effects of Static Magnetic Field and Gas Atmosphere on Solidification of Silicon by Electromagnetic Levitation, Journal of Physics: Conference Series, 165, 012020, 23. H. Nakajima, S. Y. Kim, J. S. Park, Fabrication of porous aluminium with directional pores through thermal decomposition method, Journal of Physics: Conference Series, 165, 012063, 24. T. Ide H. Nakajima, Fabrication of lotus-type porous copper through thermal decomposition of titanium hydride, Journal of Physics: Conference Series, 165, 012064, 25. M. Tane, H. Nakajima, Fabrication of Porous Magnesium with Directional Pores through Thermal Decomposition of Magnesium Hydride, Journal of Physics: Conference Series, 165, 012065, 26. J. S. Park, H. Nakajima, Fabrication of lotus-type porous aluminum using thermal decomposition of magnesium hydroxide, Journal of Physics: Conference Series, 165, 012066, 27. T.B. Kim, S. Suzuki, H. Nakajima, Fabrication of a lotus-type porous Al-Si alloy by continuous
casting with a thermal decomposition method, Journal of Physics: Conference Series, 165, 012067, 28. S. Suzuki, T.B. Kim, H. Nakajima, Fabrication of Al-Cu alloy with elongated pores by continuous casting technique, Journal of Physics: Conference Series, 165, 012068, 29. S. Ueno, T. Akatsu, H. Nakajima, Fabrication of Porous Magnesium Spinel (MgAl2O4) with Cylindrical Pores by Unidirectional Solidification, Journal of Physics: Conference Series, 165, 012069, 30. J. Lobos, S. Suzuki, H. Nakajima, Y. S. Ji, H. Fujii, D. Terada, N. Tsuji, Structure change and improvement of the mechanical properties of a lotus-type porous copper by wire-brushing, Journal of Physics: Conference Series, 165, 012070, 31. Y. Kawamura, S. Suzuki, S.Y. Kim, H. Nakajima, M. Kashihara, H.Yonetani, Mechanical property of lotus-type porous carbon steel fabricated by continuous casting method, Journal of Physics: Conference Series, 165, 012071, 32. R. Nakamura, H. Nakajima, Structural Stability of Hollow Oxide Nanoparticles at High Temperatures, Journal of Physics: Conference Series, 165, 012072, 33. H. Nakajima, R. Nakamura, Fabrication of Hollow Nano Particles of Metallic Oxides Through Oxidation Process, Materials Science Forum, 638-642, 67-72, 2010 国際会議プロシーディングス 1. R. Nakamura, H. Nakajima, H. Mori, Formation of a Nano-hole via Oxidation of Metal Nanoparticles, Defect and Diffusion Forum, 289-292, 649-656, 2. R. Nakamura, H. Nakajima, H. Mori, Shrinkage of Hollow Nanoparticles of Oxides of Cu and Ni at High Temperatures, Defect and Diffusion Forum, 289-292, 673-678, 3. J. Lobos, S. Suzuki,H. Utsunomiya, H. Nakajima, Structure Change and Improvement of the Mechanical Properties of Lotus-type Porous Copper by ECAE Process, Materials Science Forum, 620-622, 757-760, 4. H. Nakajima, T. Ide, S.-Y. Kim, Fabrication of Porous Metals with Directional Pores Through Solidification of Gas-dissolved Melt, Materials Science Forum, 620-622, 785-790, 5. M. Kashihara, H. Yonetani, S. Suzuki, S.Y. Kim, H. Nakajima, Fabrication of Lotus-type Porous Carbon Steel by Continuous Casting Technique and Application to Machine Tools, Proceedings of International Symposium on Cellular Metals for Structural and Functional Applications(CELLMET2008), 89-94, 6. K. Alvarez, H. Nakajima, Lotus-type Porous Ni-free Stainless Steel Biomaterial Produced by Continuous Zone Melting Technique, Proceedings of International Symposium on Cellular Metals for Structural and Functional Applications(CELLMET2008), 301-306,
7. S. Ueno, H. Kobatake, H. Fukuyama, S. Awaji, H. Nakajima, Effects of Static Magnetic Field and Gas Atmosphere on Solidification of Silicon by Electromagnetic Levitation, Journal of Physics: Conference Series, 165, 012020, 8. H. Nakajima, S. Y. Kim, J. S. Park, Fabrication of porous aluminium with directional pores through thermal decomposition method, Journal of Physics: Conference Series, 165, 012063, 9. T. Ide H. Nakajima, Fabrication of lotus-type porous copper through thermal decomposition of titanium hydride, Journal of Physics: Conference Series, 165, 012064, 10. M. Tane, H. Nakajima, Fabrication of Porous Magnesium with Directional Pores through Thermal Decomposition of Magnesium Hydride, Journal of Physics: Conference Series, 165, 012065, 11. J. S. Park, H. Nakajima, Fabrication of lotus-type porous aluminum using thermal decomposition of magnesium hydroxide, Journal of Physics: Conference Series, 165, 012066, 12. T.B. Kim, S. Suzuki, H. Nakajima, Fabrication of a lotus-type porous Al-Si alloy by continuous casting with a thermal decomposition method, Journal of Physics: Conference Series, 165, 012067, 13. S. Suzuki, T.B. Kim, H. Nakajima, Fabrication of Al-Cu alloy with elongated pores by continuous casting technique, Journal of Physics: Conference Series, 165, 012068, 14. S. Ueno, T. Akatsu, H. Nakajima, Fabrication of Porous Magnesium Spinel (MgAl2O4) with Cylindrical Pores by Unidirectional Solidification, Journal of Physics: Conference Series, 165, 012069, 15. J. Lobos, S. Suzuki, H. Nakajima, Y. S. Ji, H. Fujii, D. Terada, N. Tsuji, Structure change and improvement of the mechanical properties of a lotus-type porous copper by wire-brushing, Journal of Physics: Conference Series, 165, 012070, 16. Y. Kawamura, S. Suzuki, S.Y. Kim, H. Nakajima, M. Kashihara, H.Yonetani, Mechanical property of lotus-type porous carbon steel fabricated by continuous casting method, Journal of Physics: Conference Series, 165, 012071, 17. R. Nakamura, H. Nakajima, Structural Stability of Hollow Oxide Nanoparticles at High Temperatures, Journal of Physics: Conference Series, 165, 012072, 18. H. Nakajima, R. Nakamura, Fabrication of Hollow Nano Particles of Metallic Oxides Through Oxidation Process, Materials Science Forum, 638-642, 67-72, 2010 著書 1. 小岩昌宏, 中嶋英雄, 材料における拡散, 内田老鶴圃,, 314
2. 中嶋英雄, ナノサイエンスが作る多孔性材料 : 第 1 章製造方法 1. 金属系多孔性材 料, シーエムシー出版, 2010 受賞 1. 松林玄, 仲村龍介 中嶋英雄, 土谷博昭, 藤本慎司, 日本金属学会 年春期大会第 12 回優秀ポスター賞,.3.29 2. 中嶋英雄, 紫綬褒章,.4.29 3. 鈴木進補, 平成 20 年度高温学会解説賞,.5.27 4. 鈴木進補, 日本金属学会論文賞第 7 回 まてりあ論文,.9.15 5. 杉原孝平 鈴木進補 中嶋英雄, 軽金属学会関西支部ベストポスター賞, 2010.1.6 6. 中嶋英雄, 鳥居薫, 富村寿夫, 小野文夫, 千葉博, 大串哲朗, 日本機械学会関西支部賞 ( 研究賞 ), 2010.3.16 その他 1 件 特許権などの知的財産権 1. 大韓民国特許, 多孔質金属の製造方法, 発明者 : 中嶋英雄, 権利者 : 中嶋英雄, 10-0887651, 出願年月日 :2002/8/26, 取得年月日 :/3/2 2. カナダ特許, ポーラス金属の製法, 発明者 : 中嶋英雄, 権利者 : 中嶋英雄, 2378825, 出願年月日 :2002/7/10, 取得年月日 :/9/15 新聞報道 ( 関連報道 ) など 1. 中嶋英雄, 朝日新聞, 春の褒章 704 人 24 団体に, /4/28 2. 中嶋英雄, 科学新聞, " 平成 21 年春の褒章自然科学系 紫綬 受章 12 氏の業績 ", /5/1 3. 中嶋英雄, 毎日新聞, 春の褒章 704 人, /4/28 4. 中嶋英雄, 日本経済新聞, 紫綬褒章, /4/28 5. 中嶋英雄, 読売新聞, 春の褒章 704 人侍ジャパンにも, /4/28