Original Paper@Review Papers and Books@Conferences@Awards@Others

Original Papers

Surface modification of metals for biomedical applications

  1. K. Ueda, H. Suto, K. Nakaie and T. Narushima, gPack Cementation Treatment of Titanium Using Tetracalcium Phosphate Powder for Biomedical Applications,hMateriasl Science Forum Vols. 654-656 (2010) pp. 2172-2175.
  2. K. Ueda, T. Narushima, T. Goto, T. Katsube, H. Nakagawa, H. Kawamura and M. Taira, gCalcium phosphate coating on blast-treated titanium implants by RF magnetron sputtering,h Materials Science Forum Vols. 631-632 (2010) pp. 211-216.
  3. M. Sato, R. Tu, T. Goto, K. Ueda and T. Narushima, gPreparation of functionally graded bio-ceramics film by MOCVD,h Materials Science Forum Vols. 631-632 (2010) pp. 193-198.
  4. K. Ueda, Y. Kawasaki, T. Narushima, T. Goto, J. Kurihara, H. Nakagawa and H. Kawamura, gCalcium phosphate films with/without heat treatments fabricated using RF magnetron sputtering,h Journal of Biomechanical Science and Engineering, 4 [3] (2009) pp. 392-403.
  5. Y.Z. Kim, T. Konno, T.Murakami, T.Narushima and C.Ouchi, gSurface Hardening Method for Titanium Materials Using Ar-5%CO Gas in Combination with Post Heat Treatment under Vacuum,h Mater. Trans., 50 [10] (2009), 2763-2771.
  6. M. Sato, R. Tu, T. Goto, K. Ueda and T. Narushima, gPrecipitation Behavior in a Hanks' Solution on Ca-P-O Films Prepared by Laser CVD,h Mater.Trans., 50 [10] (2009), 2455-2459.
  7. M. Sato, R. Tu, T. Goto, K. Ueda, T. Narushima, "Apatite formation behavior on bio-ceramic films prepared by MOCVD," J. Ceram. Soc. Jpn., 117 (2009) pp.461-465.
  8. T. Narushima, K. Ueda and T. Goto, gSurface modification of titanium by dry process for biomedical applications,h Proceedings of the 9th International Symposium on Biomaterials, Kyungpook National University, Daegu, Korea, (2009)
  9. K. Ueda, Y. Kawasaki, T. Narushima, T. Goto, J. Kurihara, H. Nakagawa, H. Kawamura and M. Taira, gCalcium Phosphate Films with/without Heat Treatments Fabricated using RF Magnetron Sputtering,h J. Biomech. Sci.Eng., 4 [3] (2009), 392-403.
  10. ‹àŒ³“N, ¡–ìV, ‘ºã‘¾ˆê, ¬“‡®”V, ‘å“àçH, g^‹óŒã”Mˆ—‚ð‘g‚݇‚킹‚½Ar-5%COƒKƒX‚ð—˜—p‚µ‚½ƒ`ƒ^ƒ“Þ—¿‚Ì•\–Êd‰»ˆ—–@,h “ú–{‹à‘®Šw‰ïŽ., 72 [12] (2008), 1002-1009.
  11. Y.Z. Kim, T. Murakami, T. Narushima and C. Ouchi, gEvaluation of Sliding Wear Resistant Property of C. P. Titanium and SP-700 Titanium Alloy Surface-Hardened by Ar-5%CO Gas,h ISIJ International, 48 [1] (2008), 89-98.
  12. ’†ì_L, Ÿ•”’©”V, ã“c‹±‰î, ŒIŒ´~, Œã“¡F, ¬“‡®”V, 쑺m,gRFƒ}ƒOƒlƒgƒƒ“ƒXƒpƒbƒ^ƒŠƒ“ƒO–@‚ð—p‚¢‚½‹zŽû«”–‘wƒŠƒ“Ž_ƒJƒ‹ƒVƒEƒ€ƒR[ƒeƒCƒ“ƒOƒCƒ“ƒvƒ‰ƒ“ƒg‚ÉŠÖ‚·‚éŽÀŒ±“IŒ¤‹†,h“ú–{Š{Šç–ʃCƒ“ƒvƒ‰ƒ“ƒgŠw‰ïŽ, 7 [1] (2008), 3-13.
  13. ²“¡[FA“h—nAŒã“¡FAã“c‹±‰îA¬“‡®”V gMOCVD–@‚É‚æ‚éCa-Ti-O‚¨‚æ‚ÑCa-P-OŒnŒXŽÎ‹@”\ƒoƒCƒIƒZƒ‰ƒ~ƒbƒNƒX–Œ‚̇¬h •²‘Ì‚¨‚æ‚Ñ•²–––è‹à@‘æ55Šª‘æ5† (2008) pp.325-330. Journal of the Japan Society of Powder and Powder Metallurgy (J. Jpn. Soc. Powder Powder Metallurgy) 55 (2008) pp. 325-330.
  14. ¬“‡®”V, ã“c‹±‰î. Œã“¡F, Ÿ•”’©”V, 쑺m, ’†ì_L, •½‰ë”V gƒuƒ‰ƒXƒgˆ—‚ðŽ{‚µ‚½Ti-6Al-4V‡‹àŠî”‚ւ̃Šƒ“Ž_ƒJƒ‹ƒVƒEƒ€ƒR[ƒeƒBƒ“ƒO‚ƶ‘Ì“àŠO•]‰¿h •²‘Ì‚¨‚æ‚Ñ•²–––è‹à@‘æ55Šª‘æ5† (2008) pp.318-324. Journal of the Japan Society of Powder and Powder Metallurgy (J. Jpn. Soc. Powder Powder Metallurgy) 55 (2008) pp. 318-324.
  15. M. Sato, R. Tu, T. Goto, K. Ueda and T. Narushima. gHydroxyapatite formation on Ca-P-O coating prepared by MOCVDh Materials Transaction, Vol. 49, No. 8 (2008) pp. 1848-1852.
  16. K. Ueda, T. Narushima, T. Goto, H. Nakagawa, H. Kawamura and T. Katsube, gIn vivo and in vitro Evaluations of Calcium Phosphate Films Coated on Titanium by RF Magnetron Sputtering,h Ti-2007 Sci. and Technol. Proc. of the 11th World Conference on Titanium, (JIMIC5) (2007) pp. 1477-1480.
  17. M. Sato, R. Tu, T. Goto, K. Ueda and T. Narushima, gHydroxyapatite Formation on Calcium Phosphate Coated Titanium,h Materials Science Forum, 561-565 (2007), 1513-1516.
  18. K. Ueda, T. Narushima, T. Katsube, H. Kawamura and T. Goto, gIn Vitro Evaluation of RF Magnetron-sputtered Calcium Phosphate Films on Titanium,h Key Engineering Materials, 352 (2007), 305-309.
  19. M. Sato, R. Tu, T. Goto, K. Ueda and T. Narushima, gHydroxyapatite Formation on MOCVD-CaTiO3 Coated Ti,h Key Engineering Materials, 352 (2007), 301-304.
  20. K. Ueda, T. Narushima, T. Goto, M. Taira, and T. Katsube, gFabrication of Calcium Phosphate Films for Coating on Titanium Substrates Heated up to 773 K by RF Magnetron Sputtering and their Evaluations,h Biomedical Materials, 2 (2007) S160-S166.
  21. M. Sato, R Tu, T. Goto, K. Ueda, T. Narushima, gHydroxyapatite Formation on CaTiO3 Film Prepared by Metal-Organic Chemical Vapor Deposition,h Mater.Trans., 48 [6] (2007), 1505-1510.
  22. K. Ueda, T. Narushima, T. Goto, T. Katsube, H. Nakagawa, H. Kawamura and M. Taira, gEvaluation of Calcium Phosphate Coating Films on Titanium Fabricated Using RF Magnetron Sputtering,h Mater.Trans., 48 [3] (2007), 307-312.
  23. T.Narushima, K.Ueda, T.Goto, T.Katsube, H.Kawamura, C.Ouchi and Y.Iguchi, gCalcium Phosphate Films Coated on Titanium by RF Magnetron Sputtering for Medical Applications,h Mat.Sci.Forum, 539-543 (2007), 551-556.
  24. Y.Z. Kim, T. Murakami, T. Narushima, Y.Iguchi and C.Ouchi, gSurface Hardening Treatment for C.P. Titanium and Titanium Alloys in Use of Ar-5%CO Gas,h ISIJ International, 46 [9] (2006), 1329-1338.
  25. Y.Z. Kim, T. Murakami, T. Narushima, Y. Iguchi and C. Ouchi, gSurface Hardening Treatment in Use of CO Gas and Post-heat Treatment in C.P. Titanium and Titanium Alloys,h Solid State Phenomena, 118 (2006), 109-114.
  26. ‹àŒ³“N, ²Œ´—º“ñ, ¬“‡®”V, ˆäŒû‘×F, ‘å“àçH, gCO2ƒKƒX‚ð—˜—p‚µ‚½ƒ`ƒ^ƒ“‚¨‚æ‚у`ƒ^ƒ“‡‹à‚Ì•\–Êd‰»ˆ—,h “S‚Æ|, 92 [1] (2006), 1-9.
  27. ²“¡[F, “h—n, Œã“¡F, ã“c‹±‰î, ¬“‡®”V, gMOCVD–@‚É‚æ‚éŒXŽÎ‘g¬¶‘Ì“K‡«–Œ‚Ìì»,h ŒXŽÎ‹@”\Þ—¿˜_•¶W, 20 (2006), 109-114.
  28. T.Katsube, H.Nakagawa, T.Narushima and H.Kawamura, gIn Vivo Evaluation of Calcium Phosophate Films on Titanium Implant by RF Magnetron Sputtering,h Proceedings of XVIII International Congress of the European Association for Cranio-Maxillofacial Surgery, Medimond, (2006), 67-72.
  29. T.Narushima, K.Ueda, T.Goto, T.Katsube, H.Kawamura, C.Ouchi and Y.Iguchi, gCharacterization of Calcium Phosphate Films Prepared by RF Magnetron Sputtering,h Mat.Res.Soc.Symp.Proc. Vol.888 (2006), 101-106.
  30. T.Narushima, K.Ueda, T.Goto, H.Masumoto, T.Katsube, H.Kawamura, C.Ouchi and Y.Iguchi, gPreparation of Calcium Phosphate Films by Radiofrequency Magnetron Sputtering,h Mater.Trans., 46 [10] (2005), 2246-2252.
  31. K.Ueda, T.Narushima, T.Goto, T.Katsube, H.Kawamura, C.Ouchi and Y.Iguchi gPreferred Orientation of Calcium Phosphate Films Prepared by RF Magnetron Sputtering,h Archives of BioCeramics Research Volume 5, (2005), pp.59-62.
  32. K. Ueda, T. Narushima, C. Ouchi and Y. Iguchi, gWear Loss and Elution of C.P.Ti and Titanium Alloys in Simulated Body Fluids,h Mat.Sci.Forum, 475-479, (2005), 2333-2336.
  33. S. Mineta, S. Namba, T. Yoneda, K. Ueda and T. Narushima
    gCarbide formation and dissolution in biomedical Ca-Cr-Mo alloys with
    different carbon contents during solution treatmenth
    Metallurgical and Materials Transactions A Vols. 41A (2010) pp. 2129-
    2138.
  34. S. Mineta, Alfirano, S. Namba, T. Yoneda, K. Ueda and T. Narushima
    gPhase and morphology of carbides in ASTM F75 Co-Cr-Mo-C alloys formed
    at 1473 to 1623 Kh
    Materials Science Forum Vols. 654-656 (2010) pp. 2176-2179.
  35. T. Narushima, K. Ueda, T. Goto, J. Kurihara and H. Kawamura
    gCalcium phosphate coating on titanium using dry processh
    Materials Science Forum Vols. 654-656 (2010) pp. 2162-2167.
  36. Alfirano, S. Mineta, S. Namba, T. Yoneda, K. Ueda and T. Narushima
    gHeat treatment of ASTM F75 Co-Cr-Mo-C-Si-Mn alloysh
    Materials Science Forum Vols. 654-656 (2010) pp. 2180-2183.
  37. ã“c‹±‰î
    gœŒ`¬”\Œüã‚ð–Ú“I‚Æ‚µ‚½ƒ`ƒ^ƒ“ŒnÞ—¿‚Ö‚Ì‚è‚ñŽ_ƒJƒ‹ƒVƒEƒ€ƒR[ƒeƒBƒ“ƒOh
    gCalcium phosphate coating on titanium for improving biocompatibility
    with boneh
    Œy‹à‘®@‘æ60Šª7† (2010), pp. 347-350.
  38. ã“c‹±‰î
    gœŒ`¬”\Œüã‚ð–Ú“I‚Æ‚µ‚½ƒŠƒ“Ž_ƒJƒ‹ƒVƒEƒ€ƒR[ƒeƒBƒ“ƒO‚Æ‚»‚Ì“W–]h
    gCalcium phosphate coating for biomedical applications and its futureh
    ƒoƒCƒIƒ}ƒeƒŠƒAƒ‹@‘æ28Šª3† (2010), pp. 159-160.

Microstructual control of biomedical titanium materials

  1. B. Poorganji, T. Murakami, T. Narushima, C. Ouchi and T. Furuhara, gEffect of Alloying Elements on Hot Deformation of Duplex Titanium Alloys,hTi-2007 Sci. and Technol. Proc. of the 11th World Conference on Titanium, (JIMIC5) (2007) pp. 535-538.
  2. T. Hirano, T. Murakami, T. Narushima, and C. Ouchi. gVariations in the Microstructure and Hardness with Solution Treating and Aging Conditions in New ƒ¿+ƒÀ Titanium Alloy Ti-4.5%Al-6%Nb-2%Fe-2%Mo,h ISIJ Int., 47 [7] (2007), 1041-1048.
  3. T. Hirano, T. Murakami, M. Taira, T. Narushima and C. Ouchi. gAlloy Design and Properties of New ƒ¿+ƒÀ Titanium Alloy with Excellent Cold Workability, Superplasticity and Cytocompatibility,h ISIJ Int., 47 [5] (2007), 745-752.
  4. B. Poorganji, S. Hotta, T. Murakami, T. Narushima, Y. Iguchi and C. Ouchi, gThe Effect of Small Amounts of Yttrium Addition on Static and under Superplastic Deformation Condition Grain Growth in Newly Developed ƒ¿+ƒÀ Type Ti-4.5Al-6Nb-2Mo-2Fe Alloy,h Advanced Materials Research, 15-17 (2007), 970-975.
  5. K. Taneichi, M. Taira, E. Sukedai, T. Narushima, Y. Iguchi and C. Ouchi, gAlloy Design and Property Evaluation of New ƒÀtype Titanium Alloy with Excellent Cold Workability and Biocompatibility,h ISIJ International, 46 [2] (2006), 292-301.
  6. S. Hotta, K. Yamada, T. Murakami, T. Narushima, Y. Iguchi and C. Ouchi, gƒÀ Grain Refinement due to Small Amounts of Yttrium Addition in ƒ¿+ƒÀ Type Titanium Alloy, SP-700,h ISIJ International, 46 [1] (2006), 129-137.
  7. T. Nomura, N. Yamamoto, T. Narushima, Y. Iguchi and C. Ouchi, "Refinement of ƒÀ Grain Size Due to TiB or Y2O3 Precipitates in Titanium Alloy," Ti-2003, Science and Technology, Vol.II, edited by G.Lutjering and J.Albercht, DGM, Wiley-VCH, (2004), pp.1235-1242.

Microstructual control of biomedical Co-Cr-Mo alloys

  1. S. Mineta, Alfirano, S. Namba, T. Yoneda, K. Ueda and T. Narushima, gBehavior of Precipitates in Biomedical Co-Cr-Mo-C Alloys during Heat Treatment,h Proceedings of Processing and Fabrication of Advance Materials XVIII, Sendai, (2009), 1301-1310.
  2. Alfirano, S. Mineta, S. Namba, T. Yoneda, K. Ueda and T. Narushima, gEffect of Addition of Alloying Elements on Microstructure of Biomedical Co-Cr-Mo Alloy,h Proceedings of Processing and Fabrication of Advance Materials XVIII, Sendai, (2009), 1455-1464.
  3. S. Mineta, S. Namba, T. Yoneda, K. Ueda and T. Narushima, gChanges in microstructure of biomedical Co-Cr-Mo-C alloys with solution treating and aging,h Advanced Materials Research, 89-91 (2010) 377-382.

High-temperature oxidation and corrosion of ceramic and metallic materials

  1. K. Taneichi, T. Narushima, Y. Iguchi and C. Ouchi, gOxidation or Nitridation Behavior of Pure Chromium and Chromium Alloys Containing 10 mass% Ni or Fe in Atmospheric Heating,h Mater.Trans., 47 [10] (2006), 2540-2546.
  2. T. Narushima, K. Suzuki, S. Kimura, Y. Iguchi and C. Ouchi, "Nitridation of Titanium-Tin Alloys during Heating in Air," Ti-2003, Science and Technology, Vol.IV, edited by G.Lutjering and J.Albercht, DGM, Wiley-VCH, (2004), pp.2115-2122.
  3. T. Narushima, T. Goto, C. Ouchi and Y. Iguchi, "Wet Oxidation of Silicon Carbide and Silicon Nitride," Metals Materials and Processes, 15 [1-2] (2003), 177-185.
  4. T. Narushima, T. Goto, M. Maruyama, H. Arashi and Y. Iguchi, "Oxidation of Boron Carbide-Silicon Carbide Composite at 1073 to 1773 K," Mater.Trans., 44 [3] (2003), 401-406.
  5. T. Narushima, M. Kato, S. Murase, C. Ouchi and Y. Iguchi , "Oxidation of Silicon and Silicon Carbide in Ozone-Containing Atmospheres at 973 K," J.Am.Ceram.Soc., 85 [8] (2002), 2049-2055.
  6. T. Inaba, M. Sakuma, M. Watanabe, T. Narushima, C. Ouchi and Y. Iguchi, "Sulfidation of Iron and Iron Oxides at 573 to 773 K," Proceedings of the International Symposium on High-Temperature Corrosion and Protection 2000, (2000), pp.143-148.
  7. T. Goto, H. Homma, T. Hirai, T. Narushima and Y. Iguchi, "High-Temperature Oxidation of CVD Silicon Carbide-Passive/Active Oxidation and Bubble Formation," Proceedings of the Symposium on High Temperature Corrosion and Materials Chemistry, San Diego, CA, USA, Edited by: P.Y.Hou et al., Electrochem. Soc, (1998), pp. 395-408.
  8. T. Goto, T. Hirai, T. Narushima and Y. Iguchi, "High-temperature oxidation of CVD-Silicon Based Ceramics," Ceramic Transaction vol.71, Edited by K.Koumoto, L.S.Sheppard and H.Matsubara, Am.Ceram.Soc, (1996), pp.245-257.
  9. Y. Iguchi, T. Narushima, M. Maruyama, T. Shiozawa and H. Arashi, "Complex Oxide Films Formed during Thermal Oxidation of Liquid Aluminum Alloys," Design Fundamentals of High Temperature Composites, Intermetallics and Metal-Ceramic Systems. Ed. R.Y.Lin, Y.A.Chang, R.G.Reddy and C.T.Liu, TMS (1996), pp.337-343.
  10. T. Narushima, M. Maruyama, H. Arashi, T. Goto, T. Hirai and Y. Iguchi, "In situ Observation of Oxide Films Formed during Thermal Oxidation of SiC-B4C Composite Using Raman Spectroscopy," Key Engineering Materials, 113 (1996), 99-104.
  11. T. Goto, T. Hirai, T. Narushima and Y. Iguchi, "High-Temperature Oxidation Behavior of CVD SiC and Si3N4," Proc. 95' Beijing Inter.Conf. for Surface Sci. and Eng., Ed. by R.Zhu, China, Inte.Academic Pub., (1995), pp.401-406.
  12. ¬“‡®”V, ‹e’r’¼Ž÷, ŠÛŽR½, —’Ž¡•v, m‰È—Yˆê˜Y, ˆäŒû‘×F, "ƒ‰ƒ}ƒ“•ªŒõ–@‚ð—p‚¢‚½‚‰·Ž_‰»”ç–Œ‚Ì"‚»‚Ìê"ŠÏŽ@‘•’u‚ÌŠJ”­," “S‚Æ|A81[6] (1995), 607-612.
  13. T. Goto, T. Narushima, Y. Iguchi and T. Hirai, "High-Temperature Passive/Active Oxidation for CVD SiC and Si3N4," Ceramic Transactions vol.42, The Am.Ceram.Soc., (1994), pp.307-318.
  14. T. Narushima, J. Hagiwara, N. Kikuchi, Y. Iguchi, T. Goto and T. Hirai, "High-Temperature Active Oxidation of CVD-Si3N4 in N2-O2 Atmosphere," Advanced Materials '93, I/A: Ceramics, Powders, Corrosion and Advanced Processing, Edited by N.Mizutani et al., Trans.Mat.Res.Soc.Jpn., v14A, Elsevier, (1994), pp.281-284.
  15. T. Narushima, T. Goto, J. Hagiwara, Y. Iguchi and T. Hirai, "High-Temperature Oxidation of Chemically Vapor-Deposited Silicon Nitride in a Carbon Monoxide-Carbon Dioxide Atmosphere, " J.Am.Ceram.Soc., 77[11] (1994), 2921-2925.
  16. T. Narushima, T. Goto, Y. Yokoyama, J. Hagiwara, Y. Iguchi and T. Hirai, "High-Temperature Active Oxidation and Active-to-Passive Transition of Chemically Vapor-Deposited Silicon Nitride in N2-O2 and Ar-O2 Atmospheres," J.Am.Ceram.Soc., 77[9] (1994), 2369-2375.
  17. T. Goto, T. Narushima, Y. Iguchi and T. Hirai, "Active to Passive Transition in the High-Temperature Oxidation of CVD SiC and Si3N4," Corrosion of Advanced Ceramics. Edited by K.G.Nickel, Kluwer Academic Publishers, Netherlands, (1994), pp.165-176.
  18. T. Narushima, T. Goto, Y. Yokoyama, M. Takeuchi, Y. Iguchi and T. Hirai, "Active-to-Passive Transition and Bubble Formation for High-Temperature Oxidation of Chemically Vapor-Deposited Silicon Carbide in CO-CO2 Atmosphere," J.Am.Ceram.Soc., 77 [4] (1994), 1079-1082.
  19. T. Narushima, T. Goto, Y. Yokoyama, Y. Iguchi and T. Hirai, "High-Temperature Active Oxidation of Chemically Vapor-Deposited Silicon Carbide in CO-CO2 Atmosphere," J.Am.Ceram.Soc.,76 [10] (1993), 2521-2524.
  20. T. Narushima, R.Y. Lin, Y. Iguchi and T. Hirai, "Oxidation of Chemically Vapor Deposited Silicon Nitride in Dry Oxygen at 1923 to 2003 K," J.Am.Ceram.Soc.,76[4] (1993), 1047-1051.
  21. T. Narushima, Y. Iguchi, T. Goto, T. Hirai and Y. Yokoyama, "High-Temperature Active Oxidation of CVD-Si3N4 in Ar-O2 Atmosphere," Solid State Ionics, 53-56, (1992), 265-269.
  22. T. Narushima, T. Goto, Y. Iguchi and T. Hirai, "High-Temperature Oxidation of CVD-SiC in CO-CO2 Atmosphere," High Temperature Corrosion of Advanced Materials and Protective Coatings, Edited by Y.Saito, B.Onay and T.Maruyama. Elsevier, Amsterdam, (1992), pp.345-350.
  23. T. Narushima, T. Goto, Y. Iguchi and T. Hirai, "High-Temperature Active Oxidation of Chemically Vapor-Deposited Silicon Carbide in an Ar-O2 Atmosphere," J.Am.Ceram.Soc., 74 [10] (1991), 2583-2586.
  24. T. Narushima, T. Goto, Y. Iguchi and T. Hirai, "High-Temperature Oxidation of Chemically Vapor-Deposited Silicon Carbide in Wet Oxygen at 1823 to 1923 K," J.Am.Ceram.Soc., 73 [12] (1990), 3580-3584.
  25. T. Narushima, T. Goto and T. Hirai, "High-Temperature Passive Oxidation of Chemically Vapor Deposited Silicon Carbide," J.Am.Ceram.Soc., 72 [8] (1989), 1386-1390.
  26. T. Narushima, T. Goto and T. Hirai, "Active to Passive Transition in the Oxidation of CVD-SiC," Proceedings of the MRS International Meeting on Advanced Materials, Vol.4, Symposium G:Corrosion/Coatings of Advanced Materials. Edited by M.Doyama, S.Somiya and R.P.H.Chang.Materials Research Society, Pittsburgh, PA, (1989), pp.295-300.

Surface and interface anisotropy of ceramic materials

  1. M.Kitayama, T.Narushima, K.Tran, G.Gronsky, A.M.Glaeser, "Model Studies of Surfaces and Interfaces in Ceramics," Key.Eng.Mat., 247 (2003), 341-347.
  2. T.Narushima and A.M.Glaeser, "High-Temperature Morphological Evolution of Lithographically Introduced Cavities in Silicon Carbide," J.Am.Ceram.Soc., 84 [5] (2001), 921-928.
  3. M.Kitayama, T.Narushima, W.C.Carter, R.M.Cannon and A.M.Glaeser, "The Wulff Shape of Alumina: I, Modeling the Kinetics of Morphological Evolution Rates," J.Am.Ceram.Soc., 83 [10] (2000). 2561-2571.
  4. M.Kitayama, T.Narushima and A.M.Glaeser, "The Wulff Shape of Alumina: II, Experimental Measurements of Pore Shape Evolution," J.Am.Ceram.Soc., 83 [10] (2000). 2572-2583.

Physical chemistry of impurity elements in melts

  1. K. Hagihara, T. Tachibana, K. Sasaki, Y. Yoshida, N. Shirakawa, T. Nagasawa, T. Narushima and T. Nakano, gOxygen distribution in a titanium single crystal fabricated by an optical floating zone method under extremely low oxygen partial pressure,h Mater. Trans., 50 (2009), 2709-2715.
  2. S. Miyamoto, M.Watanabe, T.Narushima and Y.Iguchi, gDeoxidation of NiTi Alloy Melts Using Metallic Barium,h Mater.Trans., 49 [2] (2008), in press.
  3. T.Yamada, T.Kudo, K.Tajima, A.Otsuka, T.Narushima, C.Ouchi and Y.Iguchi, "Boron and Nitrogen in GaAs and InP Melts Equilibrated with B2O3 Flux," Mater.Trans., 45 [4] (2004), 1306-1310.
  4. T.Narushima, A.Yamashita, C.Ouchi and Y.Iguchi, "Solubilities and Equilibrium Distribution Coefficients of Oxygen and Carbon in Silicon," Mater.Trans., 43 [8] (2002), 2120-2124.
  5. K.Tajima, T.Ogasawara, T.Narushima, C.Ouchi and Y.Iguchi, "Behavior of Oxygen in Ga-As Melts with the Range of As Content up to 5 mass% Equilibrated with B2O3 Flux," Mater.Trans., 42 [11] (2001), 2434-2439.
  6. K.Tajima, Y.Hino, T.Narushima and Y.Iguchi, "Activity of Ga2O3 in B2O3 Flux and Free Energies of Formation of GaBO3 and InBO3," Mater. Trans. JIM, 41 [6] (2000), 714-718.
  7. K.Yanaba, Y.Matsumura, T.Narushima and Y.Iguchi, "Effect of Alloying Elements on Carbon Solubility in Liquid Silicon Equilibrated with Silicon Carbide," Mater.Trans.JIM, 39 [8] (1998), 819-823.
  8. K.Yanaba, M.Akasaka, M.Takeuchi, M.Watanabe, T.Narushima and Y.Iguchi, " Solubility of Carbon in Liquid Silicon Equilibrated with Silicon Carbide," Mater.Trans.JIM, 38 [11] (1997), 990-994.
  9. Y.Iguchi, M.Kinoshita, Y.Hino and T.Narushima, "Oxygen Distribution between Molten B2O3 Flux and Indium or Gallium," Proc. of 5th International Conference on Molten Slags, Fluxes and Salts, (1997), 317-320.
  10. Y.Iguchi, M.Kinoshita, D.Sajuti, S.Yoshida, Y.Hino and T.Narushima, "Oxygen Distribution between Molten III Group Metals and B2O3 Flux," Proceedings of International Symposium on Metallurgy and Materials of Non-ferrous Metals and Alloys, Ed.H.Jicheng et al. (1996), pp.45-49.
  11. T.Narushima, K.Matsuzawa, M.Mamiya and Y.Iguchi, "Oxygen Solubility in Liquid Si-X (X=Sb, B, P and As) Alloys," Mater.Trans.JIM., 36[6] (1995), 763-769.
  12. T.Narushima, D.Sajuti, K.Saeki, S.Yoshida and Y.Iguchi, gOxygen Solubility in Liquid Gallium and Indium,h J.Jpn.Inst.Met., 59[1] (1995), 37-43.
  13. T.Narushima, N.Ueda, M.Takeuchi, F.Ishii and Y.Iguchi, "Nitrogen Solubility in Liquid Silicon, " Mater.Trans.JIM, 35[11] (1994), 821-826.
  14. T.Narushima, K.Matsuzawa, Y.Mukai and Y.Iguchi, "Oxygen Solubility in Liquid Silicon," Mater.Trans.JIM, 35[8] (1994), 522-528.
  15. Y.Waseda, K.T.Jacob, Y.Iguchi and T.Narushima, "Theoretical Estimation of the Effect of Minor Elements on the Solubility of Oxygen in Silicon Melt," J.Crystal Growth, 139 (1994), 357-362.
  16. D.Sajuti, M.Yano, T.Narushima and Y.Iguchi, "Phase Diagrams of the Ga2O3-B2O3 and In2O3-B2O3 Binary Systems," Mater.Trans.JIM, 34 [12] (1993), 1195-1199.
  17. Y.Iguchi and T.Narushima, "Solubility of Oxygen, Nitrogen and Carbon in Liquid Silicon," Proceedings of the First International Conference on ProcessingMaterials for Properties, TMS, (1993), pp.437-440.
  18. D.Sajuti, M.Yano, T.Narushima and Y.Iguchi, "Solubility of Ga2O3 or In2O3 in Liquid B2O3," Proceedings of 4th International Conference on Molten Slags and Fluxes, ISIJ, (1992), pp.614-619.

Metallic wire for stimulation electrode

  1. S. Yonezawa, T. Narushima, K. Ueda, H. Kimura and Y. Iguchi, gFatigue behaviors of ultra fine wires of ƒÀ-type and ƒ¿-type titanium alloys,h Mater. Trans., 50 [7] (2009) pp. 1713-1719.
  2. T.Narushima, K.Ueda, T.Kinami, H.Kimura, C.Ouchi and Y.Iguchi, gFatigue Properties of Titanium Wires for Medical Applications,h Ti-2007 Sci. and Technol. Proc. of the 11th World Conference on Titanium, (JIMIC5) (2007) pp. 1505-1508.
  3. T.Narushima, K.Suzuki, T.Murakami, C.Ouchi and Y.Iguchi, " Fatigue Properties of Stainless Steel Wire Ropes for Electrodes in Functional Electrical Stimulation Systems," Mater.Trans., 46 [9] (2005), 2083-2088.
  4. T.Narushima, K.Ueda, M.Yamashita, T.Murakami, C.Ouchi and Y.Iguchi, gEvaluation of Fatigue Property of Titanium Wires by Rotating-bending Testing in 1 mass% Lactic Acid Solution,h Proc. of 9th Annual Conference of the International FES Society, (2004), 416-418.
  5. Y.Iguchi, T.Narushima, K.Suzuki, S.Yoshida, M.Watanabe, T.Kinami and C.Ouchi, "Fatigue Property of Stainless Steel FES Electrode in Hanks' Solution," Proc. of International Functional Electrical Stimulation Society 2002, (2002), pp.217-219.
  6. M.Watanabe, T.Kinami, T.Narushima, C.Ouchi, Y.Iguchi, Y.Handa and N.Hoshimiya, "Fatigue Properties of FES Electrodes in Saline Solution," Proceedings of the International Workshop on FES, Sendai, (2000), 24-27.
  7. Y.Iguchi, T.Narushima, M.Watanabe, T.Kinami, N.Hoshimiya and Y.Handa, "Collaboration and Technology Transfer between Universities and Industries on Development of Electrodes as the Interface for FES (Functional Electrical Stimulation)," Proceedings of the International Conference on Steel and Society, (2000), pp.396-401.
  8. Y.Iguchi, C.Ouchi, T.Narushima, M.Watanabe, T.Kinami, T.Nishikawa, N.Hoshimiya and Y.Handa, "Development of Implanted Bio-materials and Applicationto FES Electrodes as the Interface between Stimulator and Nerve," Proceedings of 5th Annual Conference of the International Functional Stimulation Society, (2000), pp.253-256.
  9. M.Watanabe, T.Narushima, T.Kinami, Y.Iguchi, N.Hoshimiya and Y.Handa, "Evaluation of Fatigue Properties of High Nitrogen High Manganese Austenite Stainless Steel as an FES Electrode," Proceedings of 4th Annual Conference of the International Function Stimulation Society, Sendai (1999), pp.121-123.

Others

  1. M. Taira, T. Kagiya, H. Harada, T. Nezua, M. Sasaki, S. Kimura, T. Narushima and Y. Araki, "Microscopic observations and inflammatory cytokine productions of human macrophage phagocytizing sub-micron titanium particles," J. Mater. Sci. Mater. Med., 21 (2010), 267-275.
  2. M. Taira, T. Nezua, M. Sasaki, S. Kimura, T. Kagiya, H. Harada, T. Narushima, Y. Araki, "Gene Expression Analyses of Human Macrophage Phagocytizing sub-ƒÊ Titanium Particles by Allergy DNA Chip (GenopalTM)," Bio. Med. Mater. Eng., 19 (2009), 63-70.
  3. N. Fujita, R. Sahara, T. Narushima, C. Ouchi. gAustenitic Grain Growth Behavior Immediately after Dynamic Recrystallization in HSLA Steels and Austenitic Stainless SteelhISIJ International,48(10),(2008),1419-1428
  4. T. Murakami, R. Sahara, D. Harako, M. Akiba, T. Narushima, and C. Ouchi,gThe Effect of Solute Elements on Hardness and Grain Size in Platinum Based Binary Alloys,h Mater.Trans., 49 [3] (2008), 538-547.
  5. T. Murakami, K. Ohara, T. Narushima and C. Ouchi, gDevelopment of a New Method for Manufacturing Iron Foam Using Gases Generated by Reduction of Iron Oxide,h Mater.Trans., 48 [11] (2007) 2937-2944
  6. S. Hotta, K.Matsumoto, T. Murakami, T. Narushima and C. Ouchi, gDynamic and Static Restoration Behavior of Pure Lead and Tin in the Ambient Temperature Range,h Mater.Trans., 48 [10] (2007), 2665-2673.
  7. S. Hotta, T. Murakami, T.Narushima, Y.Iguchi and C.Ouchi, Effects of Cooling Rate and Direct Hot Deformation Conditions After Solidification on the Austenitic Microstructure Evolved by Simulated Strip Casting and Thin Slab Casting Processes in HSLA Steels,h Advanced Materials Research, 15-17 (2007), 726-731.
  8. Y.Sugano, R.Sahara, T.Murakami, T.Narushima, Y.Iguchi and C.Ouchi, gHydrothermal Synthesis of Zeolite A Using Blast Furnace Slag,h ISIJ International, 45 [6] (2005), 937-945.
  9. S.Hotta, T.Murakami, T.Narushima, Y.Iguchi and C.Ouchi, gEffects of Dynamic Recrystallization on ƒÁ Grain Refinement and Improvement of Micro Segregation of As Cast Austenite in 9%Ni Steel,h ISIJ International, 45 [3] (2005), 338-346.
  10. N.Fujita, T.Narushima, Y.Iguchi and C.Ouchi, "Grain Refinement of As Cast Austenite by Dynamic Recrystallization in HSLA Steels," ISIJ International, 43 [7] (2003), 1063-1072.
  11. N.Fujita, T.Narushima, Y.Iguchi and C.Ouchi, "Austenitic Grain Refinement in As Cast HSLA Steels by Dynamic Recrystallization," Mater. Sci. Forum, 426-432 (2003), 1095-1100.
  12. T.Goto, G.He, T.Narushima and Y.Iguchi, "Application of SrƒÀ-alumina Solid Electrolyte to a CO2 Gas Sensor," Solid State Ionics, 156 [3-4] (2003), 329-336.
  13. Y.Iguchi, T.Narushima and C.Izumi, "Calorimetric Study on Hydration of CaO-based Oxides,h J.Alloys and Comp., 321 [2] (2001), 276-281.
  14. G.He, T.Goto, T.Narushima and Y.Iguchi, "Electrical Conductivity and Ionic Transference Number of Sr and BaƒÀ-Aluminas," Solid State Ionics, 124 (1999), 119-124.
  15. G.He, T.Goto, T.Narushima and Y.Iguchi, "High Temperature CO2 Gas Sensor Using SrƒÀ-Alumina," Proceedings of the 4 th East Asian Conference on Chemical Sensors, Ed. by Ping Ping Tsai, ITRI, Hsinchu, Taiwan, (1999), pp.183-186.
  16. G.He, T.Goto, T.Narushima and Y.Iguchi, "Electrical Conductivity of Alkaline-Earth Metal ƒÀ-Aluminas and Their Application to a CO2 Gas Sensor, " Solid State Ionics, 121 (1999), 313-319.
  17. G.He, T.Narushima, T.Goto, T.Hirai and Y.Iguchi, "Synthesis and Electrical Property Measurements of BaƒÀ-Alumina in a BaO-MgO-Al2O3 System," J.Ceram.Soc.Jpn., 106 [11] (1998), 1048-1050.
  18. H.Gang, Y.Hayasaka, T.Narushima, T.Goto, T.Hirai and Y.Iguchi, "Preparation of SrƒÀ-Alumina Ionic Conductors and Their a.c. Impedance Measurements," J.Ceram.Soc.Jpn., 105 [12] (1997), 1067-1071.
  19. Y.Muraki, T.Narushima and Y.Iguchi, "Determination of Free Lime Contents in Slags by Solution Calorimetry," ISIJ International, 36[12] (1996), S243-S246.

Review Papers and Books

  1. T. Narushima et al. "Metals for Biomedical Devices" Woodhead Publishing Ltd. (2010) Part IV Specific applications of metals for biomedical devices
  2. ¬“‡®”V ‘¼"‹à‘®Þ—¿‚̉ÁH‚Æ‘gD"@‹¤—§o”Å(2010) ‘æ‚T͉ÁH‚É‚æ‚鎞ˆŸ—Ê‚Ì“Á«Œüã‚Æ‹@”\”­Œ»—á
  3. ¬“‡®”V ‘¼"ˆã—×p‹à‘®Þ—¿ŠT˜_"”·—²•v•Ò@(ŽÐ)“ú–{‹à‘®Šw‰ï(2010) ‘æ‚S͈ã—×p‹à‘®Þ—¿, ‘æ‚TÍ•\–ʈ—E‘½EŽ¿‰»
  4. ¬“‡®”V,gV‚µ‚¢—p“r“WŠJ(IV)@¶‘̈ã—×p“r,h‘æ‚U‚P‰ñ”’΋L”OuÀuƒ†ƒrƒLƒ^ƒXŽž‘ã‚ÉŒü‚¯‚½ƒ`ƒ^ƒ“‚ÌŒ³‘fí—ªv“ú–{“S|‹¦‰ï (2009), 125-142.
  5. ¬“‡®”V ‘¼"ƒ`ƒ^ƒ“‚ÌŠî‘bE‰ÁH‚ÆÅV‰ž—p‹Zp" ƒV[ƒGƒ€ƒV[o”Å(2009)
  6. ¬“‡®”V, gœ“K‡«Œüã‚ð–Ú“I‚Æ‚µ‚½ƒ`ƒ^ƒ“Þ—¿‚Ì•\–ʈ—,h Œy‹à‘®, 58 [11] (2008), 577-582.
  7. ¬“‡®”V, g‹à‘®ƒoƒCƒIƒ}ƒeƒŠƒAƒ‹‚Ì•\–ÊŒ`‘Ô§Œä‚Æ•\–Ê‘g¬E‘Š§Œä,h ƒoƒCƒIƒ}ƒeƒŠƒAƒ‹, 25 [4] (2007), 252-260.
  8. ¬“‡®”V, g¶‘Ì—pƒ`ƒ^ƒ“‹y‚у`ƒ^ƒ“‡‹à,h ‹à‘®, 77 [2] (2007), 122-127.
  9. ¬“‡®”V, g¶‘ÌÞ—¿‚Æ‚µ‚Ẵ`ƒ^ƒ“‚¨‚æ‚у`ƒ^ƒ“‡‹à,h Œy‹à‘®, 55 [11] (2005), 561-565.
  10. ¬“‡®”V, g“ÁW@‹à‘®Þ—¿‚ð’m‚é@ƒ`ƒ^ƒ“Aƒ`ƒ^ƒ“‡‹à,h ƒoƒCƒIƒ}ƒeƒŠƒAƒ‹, 23 [2] (2005), 86-95.
  11. M.Niinomi, T.Hanawa and T.Narushima, gJapanese Research and Development on Metallic Biomedical, Dental, and Healthcare Materials,h JOM: The Member Journal of The Minerals, Metals & Materials Society, 57 [4] (2005), 18-24.
  12. ˆäŒû‘×F, ¬“‡®”V, ¯‹{–], ”¼“cN‰„, "’´‚ƒ“x¸»‹Zp‚ÉŠî‚¢‚½‹@”\“I“d‹CŽhŒƒ—p¶‘Ì–„ž‚݃Xƒeƒ“ƒŒƒX|»“d‹É‚ÌŠJ”­," ‚Ó‚¥‚ç‚Þ, 4 [11] (1999), 737-740.
  13. T.Narushima, T.Goto, T.Hirai and Y.Iguchi, "High-Temperature Oxidation of Silicon Carbide and Silicon Nitride," Mater.Trans.JIM., 38 [10] (1997), 821-835.
  14. ¬“‡®”V ‘¼‹¤’˜, "‹à‘®ƒf[ƒ^ƒuƒbƒN"
  15. ¬“‡®”V ‘¼‹¤’˜, "ŽÀŒ±Þ—¿‰ÈŠw@ƒjƒ…[ƒ}ƒeƒŠƒAƒ‹ŠJ”­‚ÌŠî‘b “Œ–k‘åŠwƒ}ƒeƒŠƒAƒ‹EŠJ”­Œn•Ò", “à“c˜V’ß•Þ(1996)

Conferences (since 2006)

International

  1. K. Ueda, T. Narushima, Y. Kawasaki, T. Goto, J. Kurihara and H. Kawamura
    gEvaluation of double-layer calcium phosphate coating film fabricated by RF magnetron sputtering on titanium substrateh
    ISPlasma2010
    Meijo University, Nagoya, Japan, 2010, March 7-10 (10)
    Nagoya, Japan
  2. S. Mineta, Alfirano, S. Namba, T. Yoneda, K. Ueda and T. Narushima
    gBehavior of precipitates in biomedical Co-Cr-Mo-C alloys during heat treatmenth
    PFAM XVIII (Processing and Fabrication of Advanced Materials XVIII)
    Sakura Hall, Tohoku University, Sendai, Japan, 2009, December 12-14
    Sendai, Japan
  3. Alfirano, S. Mineta, S. Namba, T. Yoneda, K. Ueda and T. Narushima
    gEffect of addition of alloying elements on microstructure of biomedical Co-Cr-Mo alloyh
    PFAM XVIII (Processing and Fabrication of Advanced Materials XVIII)
    Sakura Hall, Tohoku University, Sendai, Japan, 2009, December 12-14
    Sendai, Japan
  4. S. Mineta, Alfirano, S. Namba, T. Yoneda, K. Ueda, T. Narushima
    gPrecipitation formed in biomedical Co-Cr-Mo-C alloys during heat treatmenth
    KINKEN-WAKATE2009, 6th Materials Science School for Young Scientists gBio- and Nano-materials for Next Generationh
    Hotel Iwanuma-ya, Akiu-spa, Sendai, Japan, 2009, December 4
    Sendai, Japan
  5. Alfirano, S. Mineta, S. Namba, T. Yoneda, K. Ueda, T. Narushima
    gMicrostructural change during heat treatment in biomedical Co-Cr-Mo-C-Si-Mn alloysh
    KINKEN-WAKATE2009, 6th Materials Science School for Young Scientists gBio- and Nano-materials for Next Generationh
    Hotel Iwanuma-ya, Akiu-spa, Sendai, Japan, 2009, December 4
    Sendai, Japan
  6. Alfirano, S. Mineta, S. Namba, T. Yoneda, K. Ueda and T. Narushima
    gFormation and dissolution of carbides in biomedical Co-Cr-Mo-C-Si-Mn alloys during heat treatmenth
    Interdisciplinary Science of Nanomaterials
    Sendai Excel Hotel Tokyu, Japan, 2009, September 25
    Sendai, Japan
  7. K. Ueda, H. Suto and T. Narushima
    gSurface modification by pack cementation using HAp and TTCP powders for biomedical applicationsh
    Interdisciplinary Science of Nanomaterials
    Sendai Excel Hotel Tokyu, Japan, 2009, September 25
    Sendai, Japan
  8. S. Mineta, S. Namba, T. Yoneda, K. Ueda and T. Narushima
    gChanges in microstructure of biomedical Co-Cr-Mo-C alloys with solution treatment and agingh
    International Conference on PROCESSING & MANUFACTURING OF ADVANCED MATERIALS, Thermec 2009
    MARITIM Hotel Berlin, Germany, 2009, August 25-29
    Berlin, Germany
  9. S. Mineta, Alfirano, S. Namba, T. Yoneda, K. Ueda and T. Narushima
    gPrecipitates formed in biomedical Co-Cr-Mo alloys with various carbon contentsh
    Nano/Amorphous Materials and Interface Science Symposium
    Sansa-tei,Tohgatta, Japan, 2009, August 7-8 (8)
    Tohgatta, Japan
  10. K. Ueda, T. Narushima, Y. Kawasaki, T. Goto, J. Kurihara and H. Kawamura
    gEvaluation of calcium phosphate coating film fabricated by RF magnetron sputtering on titanium substrate h
    Nano/Amorphous Materials and Interface Science Symposium
    Sansa-tei,Tohgatta, Japan, 2009, August 7-8 (7)
    Tohgatta, Japan
  11. T. Narushima, K. Ueda and H. Suto
    gSurface modification of titanium by pack cementation process for biomedical applicationsh
    The 3rd International Conference on Processing, Manufacturing of Advances Materials (ICAM-2009)
    Seacloud Hotel, Busan, Korea, 2009, July 8-10
    Busan, Korea
    Keynote speaker
  12. T. Narushima, K. Ueda, T. Goto, J. Kurihara, H. Kawamura
    gFabrication and evaluation of calcium phosphate films coated on blast-treated Ti-6Al-4V substrateh
    International Conference on Materials for Advanced Technologies (ICMAT2009), Symposium A, Advanced Biomaterials and Regenerative Medicine,
    Suntec Singapore International Convention & Exhibition Centre, Singapore, 2009 June 28-July 3 (June 30, 2009)
    Singapore
    Invited speaker
  13. T. Narushima
    gCalcium phosphate coating on titanium by RF magnetron sputteringh
    KIM-JIM Symposium, the 2009 Spring Annual Meeting of JIM, 2009 Spring Conference Abstracts, p. 467, Tokyo Institute of Technology, Japan, 2009, March 29.
  14. S. Mineta, K. Ueda, S. Namba, T. Yoneda and T. Narushima
    gMicrostructural change in solution treatment of biomedical Co-Cr-Mo alloys with various carbon contenth
    4th International Symposium on Designing, Processing and Properties of Advanced Engineering Materials (ISAEM-2008), Noyori Conference Hall, Nagoya University, Japan, 2008, November 18-21
    Nagoya, Japan
  15. M. Sato, R. Tu, T. Goto, K. Ueda and T. Narushima
    gApatite formation behavior on bio-ceramic films prepared by MOCVDh
    The 1st International Symposium on Advanced Synthesis and Processing Technology for Materials ASPT08, Wuhan Lake View Garden Hotel, Wuhan, China, 2008, November 14-17
    Wuhan, China
  16. K. Ueda, T. Narushima, T. Goto, T. Katsube, H. Nakagawa, H. Kawamura and M. Taira
    gCalcium phosphate coating on titanium implants by RF magnetron sputteringh
    The 1st International Symposium on Advanced Synthesis and Processing Technology for Materials ASPT08, Wuhan Lake View Garden Hotel, Wuhan, China, 2008, November 14-17
    Wuhan, China
  17. K. Ueda, T. Narushima, T. Goto, J. Kurihara, H. Nakagawa, H. Kawamura and M. Taira
    gIn vivo and in vitro evaluation of amorphous calcium phosphate coating film fabricated on blast-treated titanium implants by RF magnetron sputteringh
    The 6th Korea-China Symposium on Biomaterials and Nano-Bio Technology, Haeundau Grand Hotel, Busan, Republic of Korea, 2008, October 29-November 2
    Busan, Korea
  18. T.Narushima
    g Calcium phosphate formation on NaOH-treated titanium in simulated body fluidsh
    KIM-JIM Symposium, the 2008 Fall Annual Meeting of the KIM, the Songdo Convensia, Korea, 2008, October 23-24
    Songdo, Korea
  19. K. Ueda, T. Narushima, T. Goto, T. Katsube, H. Nakagawa, H. Kawamura and M. Taira
    gCalcium phosphate coating on blast-treated titanium implants by RF magnetron sputteringh
    FGM-2008, Sendai International Center, Sendai, Japan, 2008, September 22-25
    Sendai, Japan
  20. M. Sato, R. Tu, T. Goto, K. Ueda and T. Narushima
    gPreparation of functionally graded bio-ceramics film by MOCVDh
    FGM-2008, Sendai International Center, Sendai, Japan, 2008, September 22-25
    Sendai, Japan
  21. K. Ueda, T. Narushima, T. Goto, J. Kurihara, H. Nakagawa, H. Kawamura and T. Taira
    gAmorphous calcium phosphate coating on blast-treated titanium implants fabricated using RF magnetron sputteringh
    The 3rd International Symposium on NANO-BIO and AMORPHOUS MATERIALS, Sansa-tei, Zao, Japan, 2008, August 7-8
    Zao, Japan
  22. K. Ueda, T. Narushima, T. Goto, H. Nakagawa, H. Kawamura and T. Goto
    "Evaluation of amorphous calcium phosphate coating films fabricated on titanium by using RF magnetron sputteringh
    1st Asian Biomaterials Congress, Epochal Tsukuba International Congress Center, Tsukuba, Japan, 2007, Dec. 6-8
    Tsukuba, Japan
  23. K. Ueda, T. Narushima, T. Katsube, H. Kawamura and T. Goto
    "Surface reactions of calcium phosphate coating films fabricated using RF magnetron sputtering on blast-treated titanium implantsh
    7th Pacific Rim conference on ceramics and glass technology, Shanghai International Convention Center, Shanghai, China, 2007, November 11-14
    Shanghai, China
  24. T. Narushima, K. Ueda, T. Katsube, H. Kawamura and T. Goto
    "Evaluation of RF magnetron-sputtered calcium phosphate coating films on blast-treated titanium substratesh
    The 6th Pacific Rim International Conference on Advanced Materials and Processing, ICC Jeju, Jeju Island, Korea, 2007, November 5-9
    Jeju Island, Korea
  25. K. Ueda, T. Narushima, T. Goto, H. Nakagawa, H. Kawamura and T. Katsube
    "In vivo and in vitro Evaluations of Calcium Phosphate Films Coated on Titanium by RF Magnetron Sputtering"
    The 11th World Conference on Titanium, Kyoto International Conference Center, Japan, 2007, Jun. 3-7
    Kyoto, Japan
  26. T. Narushima, K. Ueda, K. Kinami, H. Kimura, C. Ouchi and Y. Iguchi
    "Fatigue properties of titanium wires for medical applications"
    The 11th World Conference on Titanium, Kyoto International Conference Center, Japan, 2007, Jun. 3-7
    Kyoto, Japan
  27. K. Ueda, T. Narushima, T. Katsube, M. Taira, H. Kawamura, and T. Goto
    gIn Vitro and In vivo Evaluations of Calcium Phosphate Films on Titanium Fabricated using RF Magnetron Sputteringh
    International Symposium on Interdisciplinary Science of Nanomaterials, Sendai International Center, Japan, 2007, Jan. 22-23
    Sendai, Japan
  28. K. Ueda, T. Narushima, T. Katsube, H. Kawamura and T. Goto
    gIn Vitro Evaluations of RF Magnetron-Sputtered Calcium Phosphate Films on Titaniumh
    The 3rd International Symposium on Advanced Ceramics, Grand Copthorne Waterfront Hotel, Singapore, 2006, Dec. 11-15
    Singapore
  29. T. Narushima, K. Ueda, T. Goto, M. Taira and T. Katsube
    gEvaluations of Calcium Phosphate Coating Films on Titanium Fabricated Using RF Magnetron Sputteringh
    The Fourth Korea-China Symposium on Biomaterials and Nano-Biotechnology, Korea, 2006, Oct. 19-24 (22)
    Jeju-do, Korea
  30. T. Narushima, K. Ueda, T. Goto, T. Katsube, H. Kawamura, C. Ouchi and Y. Iguchi
    gCalcium Phosphate Films Coated on Titanium by RF Magnetron Sputtering for Medical Applicationsh
    International Conference on PROCESSING & MANUFACTURING OF ADVANCED MATERIALS, Canada, 2006, July 4-8
    Vancouver, Canada
  31. T. Narushima
    gCalcium phosphate coating on titanium using dry processh
    The 7th Pacific Rim International Conference on Advanced Materials and
    Processing, PRICM7
    Cairns Convention Centre, Cairns, Australia, 2010, August 2-6 (3)
    Cairns, Australia
    Symposium I: Biomaterials, Smart Materials and Structures: Ti-Based
    Biomaterials I
    Abstracts pp. 41.
  32. K. Ueda, H. Suto, K. Nakaie and T. Narushima
    gPack cementation treatment of titanium using tetracalcium phosphate
    powder for biomedical applicationsh
    The 7th Pacific Rim International Conference on Advanced Materials and
    Processing, PRICM7
    Cairns Convention Centre, Cairns, Australia, 2010, August 2-6 (3)
    Cairns, Australia
    Symposium I: Biomaterials, Smart Materials and Structures: Ti-Based
    Biomaterials III
    Abstracts pp. 64.
  33. Alfirano, S. Mineta, S. Namba, T. Yoneda, K. Ueda and T. Narushima
    gHeat treatment of ASTM F75 Co-Cr-Mo-C-Si-Mn alloysh
    The 7th Pacific Rim International Conference on Advanced Materials and
    Processing, PRICM7
    Cairns Convention Centre, Cairns, Australia, 2010, August 2-6 (3)
    Cairns, Australia
    Symposium I: Biomaterials, Smart Materials and Structures: Other
    Functional Materials
    Abstracts pp. 131.
  34. S. Mineta, Alfirano, S. Namba, T. Yoneda, K. Ueda and T. Narushima
    gPhase and Morphology of Carbides in ASTM F75 Co-Cr-Mo-C alloys formed
    at 1473 to 1623 Kh
    Cairns Convention Centre, Cairns, Australia, 2010, August 2-6 (3)
    Cairns, Australia
    Poster I18
    Abstracts pp. 181.
  35. K. Ueda, K. Nakaie, H. Suto, T. Narushima and M. Taira
    gIn vitro evaluation of pack cementation treated titanium using
    tetracalcium phosphate powderh
    International Workshop on Nano, Bio and Amorphous Materials
    Sansa-tei,Tohgatta, Japan, 2010, August 9-10 (10)
    Tohgatta, Japan

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  2. ã“c‹±‰îA’†‰ÆDA•½‰ë”VA¬“‡®”V
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    Œy‹à‘®Šw‰ï@‘æ118‰ñtŠú‘å‰ï(2010”N5ŒŽ)
    ŠÖ¼‘åŠw
  3. Alfirano, S. Mineta, S. Namba, T. Yoneda, K. Ueda and T. Narushima
    uMicrostructural change in biomedical Co-Cr-Mo-C-Si-Mn alloy during agingv
    “ú–{‹à‘®Šw‰ï@‘æ146‰ñ‘å‰ï(2010”N3ŒŽ)
    ’}”g‘åŠw
  4. •õ“c^ŒåAAlfiranoA“ï”g–ÎMA•Ä“cûéŽuAã“c‹±‰îA¬“‡®”V
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    “ú–{‹à‘®Šw‰ï@‘æ146‰ñ‘å‰ï(2010”N3ŒŽ)
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  5. ã“c‹±‰îA{“¡‰A’†‰ÆDA¬“‡®”V
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    “ú–{‹à‘®Šw‰ï@‘æ146‰ñ‘å‰ï(2010”N3ŒŽ)
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  6. {“¡‰A•õ“c^ŒåAã“c‹±‰îA¬“‡®”V
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    “ú–{‹à‘®Šw‰ï@‘æ146‰ñ‘å‰ï(2010”N3ŒŽ)
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  7. ‰ªZ‘ñ˜NAã“c‹±‰îA¬“‡®”V
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    “ú–{‹à‘®Šw‰ï@‘æ146‰ñ‘å‰ï(2010”N3ŒŽ)
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  8. Alfirano, S. Mineta, S. Namba, T. Yoneda, K. Ueda and T. Narushima
    gEffect of Si and Mn on carbide precipitation in Co-Cr-Mo-C alloy during solution treatment and agingh
    GlobalCOE Material Integration International Center of Education and Research Reports by Young Researchers Abstracts(2010”N3ŒŽ)
    “Œ–k‘åŠw‹à‘®Þ—¿Œ¤‹†Š
  9. S. Mineta, Alfirano, S. Namba, T. Yoneda, K. Ueda and T. Narushima
    gPhase and morphology of precipitates formed at 1473 to 1623 K in biomedical Co-Cr-Mo-C alloysh
    GlobalCOE Material Integration International Center of Education and Research Reports by Young Researchers Abstracts(2010”N3ŒŽ)
    “Œ–k‘åŠw‹à‘®Þ—¿Œ¤‹†Š
  10. {“¡‰A•õ“c^ŒåAã“c‹±‰îA¬“‡®”V
    u¶‘Ì—pCo-Cr-Mo‡‹à‚Ì~‰·’‚‰»‹““®v
    ‘æ8‰ñ“ú–{‹à‘®Šw‰ï“Œ–kŽx•”@Œ¤‹†”­•\‘å‰ï(2009”N12ŒŽ)
    ŠâŽè‘åŠwHŠw•”ˆê—S‰ïŠÙ
  11. •õ“c^ŒåAAlfiranoA“ï”g–ÎMA•Ä“cûéŽuAã“c‹±‰îA¬“‡®”V
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    ‘æ31‰ñ“ú–{ƒoƒCƒIƒ}ƒeƒŠƒAƒ‹Šw‰ï‘å‰ï(2009”N11ŒŽ)
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  12. ã“c‹±‰îA{“¡‰A’†‰ÆDA¬“‡®”V
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    –¼ŒÃ‰®‘Û‰ï‹cê
  13. ‰ªZ‘ñ˜NAã“c‹±‰îA¬“‡®”V
    uƒ`ƒ^ƒ“Þ—¿‚ÌŽ_‰»‹““®‚É‹y‚Ú‚·¸‰·•µˆÍ‹C‚̉e‹¿v
    “ú–{‹à‘®Šw‰ï@‘æ145‰ñ‘å‰ï(2009”N9ŒŽ)
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  14. ¬“‡®”VAã“c‹±‰îAŒã“¡F
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    “ú–{‹à‘®Šw‰ï@‘æ145‰ñ‘å‰ï(2009”N9ŒŽ)
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  15. •õ“c^ŒåAAlfiranoA“ï”g–ÎMA•Ä“cûéŽuAã“c‹±‰îA¬“‡®”V
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    “ú–{‹à‘®Šw‰ï@‘æ145‰ñ‘å‰ï(2009”N9ŒŽ)
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  16. Alfirano, S. Mineta, S. Namba, T. Yoneda, K. Ueda and T. Narushima
    uCarbide precipitation of biomedical Co-Cr-Mo-C alloy with additions of Si and Mn during solution treatmentv
    “ú–{‹à‘®Šw‰ï@‘æ145‰ñ‘å‰ï(2009”N9ŒŽ)
  17. ã“c‹±‰îAìú±—YéA¬“‡®”VAŒã“¡FAŒIŒ´~A쑺m
    uƒ`ƒ^ƒ“Šî”Âã‚É컂µ‚½ƒŠƒ“Ž_ƒJƒ‹ƒVƒEƒ€ƒR[ƒeƒBƒ“ƒO–Œ•]‰¿v
    “ú–{‹@ŠBŠw‰ï2009”N“x”NŽŸ‘å‰ï(2009”N9ŒŽ)
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  18. ã“c‹±‰îA{“¡‰A¬“‡®”V
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  19. ã“c‹±‰îA{“¡‰A¬“‡®”V
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    Œy‹à‘®Šw‰ï@‘æ116‰ñt‹G‘å‰ï(2009”N5ŒŽ)

    “o•ÊƒOƒ‰ƒ“ƒhƒzƒeƒ‹
  20. ã“c‹±‰îAŒË“c’q”üA“h—nAŒã“¡FA¬“‡®”V
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    “ú–{‹à‘®Šw‰ï@‘æ144‰ñ‘å‰ï(2009”N3ŒŽ)
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  21. ²“¡[FA“h—nAŒã“¡FAã“c‹±‰îA¬“‡®”V
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    “ú–{‹à‘®Šw‰ï@‘æ144‰ñ‘å‰ï(2009”N3ŒŽ)
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  22. ¬“‡®”VA’†‰ª^ˆê˜YAŠâ“c’¼“¹Aã“c‹±‰îA‘å“àçH
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  23. ‘ºã‘¾ˆêA–x“c’qŽjA¬“‡®”VA‘å“àçH
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  24. “c’†—¢“ÞAŒÜˆä‰Ã–¾AÎŒ´Œ¤ŽiAã“c‹±‰îA¬“‡®”VA‘å’Ã_A‘å“à˜a—YA•½àV“T•Û
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  25. ¬“‡®”VAã“c‹±‰îAŒã“¡FAŒIŒ´~A’†ì_LA쑺@m
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  26. “n•Ós‘¾˜YAã“c‹±‰îA¬“‡®”V
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  27. ‰ªZ‘ñ˜NA“¡“cŒ’Ž‘Aã“c‹±‰îAˆêFŽÀA¬“‡®”V
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  28. ¬“‡®”VA‹àŒ³“NA¡–ìVA‰ªZ‘ñ˜NA‘ºã‘¾ˆêAã“c‹±‰îA‘å“àçH
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    “ú–{‹à‘®Šw‰ï@‘æ143‰ñ‘å‰ï(2008”N9ŒŽ)
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  29. “n•Ós‘¾˜YAã“c‹±‰îA¬“‡®”V
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    “ú–{‹à‘®Šw‰ï@‘æ143‰ñ‘å‰ï(2008”N9ŒŽ)
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  30. •õ“c^ŒåA“ï”g–ÎMA•Ä“c—²ŽuAã“c‹±‰îA¬“‡®”V
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  31. ²“¡[FA“h—nAŒã“¡FAã“c‹±‰îA¬“‡®”V
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    “ú–{‹à‘®Šw‰ï@‘æ143‰ñ‘å‰ï(2008”N9ŒŽ)
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  32. ã“c‹±‰îA¬“‡®”VAŒã“¡FAŒIŒ´~A’†ì_LA쑺m
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    “ú–{ƒoƒCƒIƒ}ƒeƒŠƒAƒ‹Šw‰ï“Œ–k’nˆæu‰‰‰ï(2008”N9ŒŽ)
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  33. ã“c‹±‰îA¬“‡®”VAŒã“¡F
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  34. ¬“‡®”VA’†‰ª^ˆê˜YAã“c‹±‰îA‘å“àçH
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    gƒÀ grain refinement of ƒ¿+ƒÀ type titanium alloy using rare earth oxide precipitatesh

    Œy‹à‘®Šw‰ï@‘æ114‰ñt‹G‘å‰ïu‰‰ŠT—v(2008”N5ŒŽ)
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  35. ŒË“c’q”üAã“c‹±‰îAŒã“¡FA¬“‡®”V
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    gFabrication of calcium phosphate coating films on titanium surface by pulsed laser depositionh

    Œy‹à‘®Šw‰ï@‘æ114‰ñt‹G‘å‰ïu‰‰ŠT—v(2008”N5ŒŽ)
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  36. “nç²s‘¾˜YA‰Á“¡Œ«ˆêAã“c‹±‰îA¬“‡®”V
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    gEffects of SBFs conditions on formation of calcium phosphate on titanium surfaceh
    Œy‹à‘®Šw‰ï@‘æ114‰ñt‹G‘å‰ïu‰‰ŠT—v(2008”N5ŒŽ)
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  37. •õ“c^ŒåA¡–ìVAã“c‹±‰îA“ï”g–ÎMA•Ä“c—²ŽuA¬“‡®”V
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    “ú–{‹à‘®Šw‰ï@‘æ142‰ñ‘å‰ï(2008”N3ŒŽ)
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  38. ‰ªZ‘ñ˜NAã“c‹±‰îA“¡“cŒ’Ž‘A¡–ì VAˆêF ŽÀA¬“‡®”V
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  39. •ÄàV‘Aã“c‹±‰îA¡–ìVA¬“‡®”V
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  40. ‰Á“¡Œ«ˆêA“n•Ós‘¾˜YAã“c‹±‰îA¬“‡®”V
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  41. ˆ¢•”’¼lAã“c‹±‰îAŒã“¡ FA¬“‡®”V
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  42. K. Ueda, T. Narushima, T. Katsube, H. Nakagawa, H. Kawamura, T. Goto
    "Evaluation of calcium phosphate films coated on titanium using RF magnetron sputteringh
    GlobalCOE Material Integration International Center of Education and Research Reports by Young Researchers(2008.3)
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  43. K. Ueda, T. Narushima, T. Goto, H. Nakagawa, H. Kawamura, T. Katsube
    "In vitro and in vivo evaluation of amorphous calcium phosphate films on titanium using RF magnetron sputteringh
    ‘æ18‰ñ“ú–{MRSŠwpƒVƒ“ƒ|ƒWƒEƒ€(2007”N12ŒŽ)
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  44. •õ“c^ŒåA¡–ì VAã“c‹±‰îA“ï”g–ÎMA•Ä“c—²ŽuAYusuwanoAA.W. PramonoA¬“‡®”V
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  45. ¬“‡®”VAã“c‹±‰îAŒã“¡FA쑺mAŸ•”’©”VA’†ì_L
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  46. ¬“‡®”VAã“c‹±‰îAŸ•”’©”VA쑺mAŒã“¡F
    uRFƒ}ƒOƒlƒgƒƒ“ƒXƒpƒbƒ^ƒŠƒ“ƒO–@‚É‚æ‚è컂µ‚½ƒŠƒ“Ž_ƒJƒ‹ƒVƒEƒ€–Œ‚̶‘Ì“àŠO•]‰¿v
    “ú–{‹à‘®Šw‰ï@‘æ141‰ñ‘å‰ï(2007”N9ŒŽ)
    Šò•Œ‘åŠw
  47. ã“c‹±‰îA¬“‡®”VAŸ•”’©”VA쑺mAŒã“¡F
    uRFƒ}ƒOƒlƒgƒƒ“ƒXƒpƒbƒ^ƒŠƒ“ƒO–@‚É‚æ‚èƒ`ƒ^ƒ“ã‚É컂µ‚½ƒŠƒ“Ž_ƒJƒ‹ƒVƒEƒ€–Œ‚Ì–§’…—Ív
    “ú–{‹à‘®Šw‰ï@‘æ140‰ñ‘å‰ï(2007”N3ŒŽ)
    ç—tH‹Æ‘åŠw
  48. ŽG‰êŒ’ˆêAã“c‹±‰îA¬“‡®”VAŒã“¡F
    u‹[Ž—‘̉t’†‚É‚¨‚¯‚¤ƒ`ƒ^ƒ“•\–Ê”½‰ž‚É‹y‚Ú‚·–³‹@ƒCƒIƒ“‚̉e‹¿v
    “ú–{‹à‘®Šw‰ï@‘æ139‰ñ‘å‰ï(2006”N9ŒŽ)
    VŠƒ‘åŠw
  49. ã“c‹±‰îA¬“‡®”VAŸ•”’©”VA쑺mAŒã“¡F
    uRFƒ}ƒOƒlƒgƒƒ“ƒXƒpƒbƒ^ƒŠƒ“ƒO–@‚É‚æ‚éƒuƒ‰ƒXƒgƒ`ƒ^ƒ“Šî”‚ւ̃Šƒ“Ž_ƒJƒ‹ƒVƒEƒ€ƒR[ƒeƒBƒ“ƒOv
    “ú–{‹à‘®Šw‰ï@‘æ139‰ñ‘å‰ï(2006”N9ŒŽ)
    VŠƒ‘åŠw
  50. ã“c‹±‰îA¬“‡®”VAŸ•”’©”VA’†ì_LA쑺mA‘–{”ŽAŒã“¡F
    uƒŠƒ“Ž_ƒJƒ‹ƒVƒEƒ€ƒXƒpƒbƒ^ƒŠƒ“ƒO–Œ‚̶¬‘Š‚ƶ‘Ì‹zŽû«‚ÌŠÖŒWv(Relationship between Phase and Bioresorbability of Calcium Phosphate Sputtering Film)
    ‘æ111‰ñ“Œ–k‘åŠw‹à‘®Þ—¿Œ¤‹†Šu‰‰‰ï(2006”N5ŒŽ)
    “Œ–k‘åŠw‹à‘®Þ—¿Œ¤‹†Š

Awards

  1. Interdisciplinary Science of Nanomaterials@Best presentation award
    Alfirano, S. Mineta, S. Namba, T. Yoneda, K. Ueda and T. Narushima
    Formation and dissolution of carbides in biomedical Co-Cr-Mo-C-Si-Mn alloys during heat treatment
  2. “Œ–k‘åŠw@HŠwŒ¤‹†‰È’·“Á•Ê‹³ˆçÜ
    HŠw•”Þ—¿‰ÈŠw‘‡Šw‰È
    ‹³–±ˆÏˆõ‰ïE‹³ˆçƒVƒXƒeƒ€“_ŒŸƒ[ƒLƒ“ƒOƒOƒ‹[ƒv
    (2008. 3.23)
  3. ISAEM-2008—DGƒ|ƒXƒ^[Ü
    S. Mineta, K. Ueda, S. Namba, T. Yoneda, T. Narushima
    Microstructural Change in Solution Treatment of Biomedical Co-Cr-Mo Alloys with Various Carbon Content
  4. ‘æ66‰ñ“ú–{‹à‘®Šw‰ïŒ÷ÑÜmÞ—¿‰»Šw•”–ån
    ¬“‡@®”V
    (ŽÐ)“ú–{‹à‘®Šw‰ï
    (2008.3)
  5. ‘æ10‰ñ“ú–{‹à‘®Šw‰ï—DGƒ|ƒXƒ^[Ü
    ‰Á“¡Œ«ˆêA“n•Ós‘¾˜YAã“c‹±‰îA¬“‡®”V
    ƒ`ƒ^ƒ“•\–Ê‚É‚¨‚¯‚郊ƒ“Ž_ƒJƒ‹ƒVƒEƒ€Œ`¬‚É‹y‚Ú‚·‹[Ž—‘̉tðŒ‚̉e‹¿
    (ŽÐ)“ú–{‹à‘®Šw‰ï
    (2008.3)
  6. ‘æ18‰ñ“ú–{MRSŠwpƒVƒ“ƒ|ƒWƒEƒ€§—ãÜ
    K. Ueda, T. Narushima, T. Goto, H. Nakagawa, H. Kawamura, T. Katsube
    In vitro and in vivo evaluation of amorphous calcium phosphate films on titanium using RF magnetron sputtering
    MRS-J
    (2007.12)
  7. ‘æ6‰ñ“ú–{‹à‘®Šw‰ï“Œ–kŽx•”Œ¤‹†”­•\‘å‰ïƒ|ƒXƒ^[—DGÜ
    •õ“c^ŒåA¡–ì VAã“c‹±‰îA“ï”g–ÎMA•Ä“c—²ŽuAYusuwanoAA.W. PramonoA¬“‡®”V
    ¶‘Ì—pCo-Cr-Mo’’‘¢‡‹à‚Ì—n‰ð‰»‚É”º‚¤‘gD•Ï‰»
    (ŽÐ)“ú–{‹à‘®Šw‰ï
    (2007.11)
  8. ‘æ6‰ñŒy‹à‘®–ôiÜ
    ¬“‡®”V
    (ŽÐ)“ú–{Œy‹à‘®Šw‰ï
    (2007.11)
  9. ‘æˆê‰ñ“Œ–k‘åŠw‹à‘®Þ—¿Œ¤‹†Š•‘®‹à‘®ƒKƒ‰ƒX‘‡Œ¤‹†ƒZƒ“ƒ^[‹¤“¯—˜—pŒ¤‹†Å—DGÜ
    ƒŠƒ“Ž_ƒJƒ‹ƒVƒEƒ€ƒR[ƒeƒBƒ“ƒO‚ð—˜—p‚µ‚½ƒ`ƒ^ƒ“»¶‘Ì‹@”\ÄŒš—pƒfƒoƒCƒX‚ÌŠJ”­
    “Œ–k‘åŠw‹à‘®Þ—¿Œ¤‹†Š
    (2007.5)
  10. •½¬19”N“xŠwp‹L”OÜi¼ŽR‹L”OÜj
    ¬“‡®”V
    Þ—¿»‘¢ƒvƒƒZƒX‚ÌŠî‘b“IŒ¤‹†
    (ŽÐ)“ú–{“S|‹¦‰ï
    (2007.3)
  11. ‘æ111‰ñ“Œ–k‘åŠw‹à‘®Þ—¿Œ¤‹†Šu‰‰‰ïÅ—DGƒ|ƒXƒ^[ÜŽóÜ
    ã“c‹±‰îA¬“‡®”VAŸ•”’©”VA’†ì_LA쑺mA‘–{”ŽAŒã“¡F
    uƒŠƒ“Ž_ƒJƒ‹ƒVƒEƒ€ƒXƒpƒbƒ^ƒŠƒ“ƒO–Œ‚̶¬‘Š‚ƶ‘Ì‹zŽû«‚ÌŠÖŒWv(Relationship between Phase and Bioresorbability of Calcium Phosphate Sputtering Film)
    “Œ–k‘åŠw‹à‘®Þ—¿Œ¤‹†Š
    (2006.4)
  12. ‘æ‚T‰ñ“ú–{‹à‘®Šw‰ï—DGƒ|ƒXƒ^[Ü
    ŽG‰ê@Œ’ˆê, ¼ŠÚ@—Tˆê˜Y, ¬“‡@®”V, ‘ºã‘¾ˆê, ‘å“à@çH, ˆäŒû@‘×F
    ¶‘Ì—pƒŠƒ“Ž_ƒJƒ‹ƒVƒEƒ€ŒnÞ—¿‚̇¬‚¨‚æ‚Ñ‹[Ž—‘̉t’†‚É‚¨‚¯‚é•\–Ê”½‰ž
    (ŽÐ)“ú–{‹à‘®Šw‰ï
    (2005.9)
  13. ‘æ1‰ñ“ú–{‹à‘®Šw‰ï—DGƒ|ƒXƒ^[Ü
    ã“c‹±‰îA¬“‡®”VAˆäŒû‘×FA‘å“àçH
    ‹[Ž—‘̉t’†‚É‚¨‚¯‚éƒXƒeƒ“ƒŒƒX|‚¨‚æ‚у`ƒ^ƒ“‡‹à‚ÌŠE–Ê”½‰ž
    (ŽÐ)“ú–{‹à‘®Šw‰ï
    (2003.10)
  14. ‘æ5‰ñ(ŽÐ)“ú–{‹à‘®Šw‰ï§—ãÜ
    ¬“‡®”V
    V‘fÞ‚Ì‚‰·‚É‚¨‚¯‚镨—‰»Šw
    (ŽÐ)“ú–{‹à‘®Šw‰ï
    (1995.12)
  15. ‘æ34‰ñŒ´“cŒ¤‹†§—ãÜ
    ¬“‡®”V
    ƒVƒŠƒRƒ“ŠîƒZƒ‰ƒ~ƒbƒNƒX‚Ì‚‰·Ž_‰»
    (à)‹à‘®Œ¤‹†•¬‰ï
    (1994.7)
  16. ‘æ15‰ñ–{‘½‹L”OŒ¤‹†§—ãÜ
    ¬“‡®”V
    ƒVƒŠƒRƒ“ŠîƒZƒ‰ƒ~ƒbƒNƒX‚Ì‚‰·Ž_‰»
    (à)–{‘½‹L”O‰ï
    (1994.2)

Invited lecture

  1. K. Ueda
    "Bioceramics coating of titanium materials"
    International Cooperation between KITECH and Tohoku University
    Korea Institute of Industrial Technology (KITECH), Songdo, Korea
    2010 Feb. 25
  2. T. Narushima
    "Surfade treatment of titanium by gas processes"
    International Cooperation between KITECH and Tohoku University
    Korea Institute of Industrial Technology (KITECH), Songdo, Korea
    2010 Feb. 25
  3. ¬“‡®”V
    "‹à‘®Œn¶‘ÌÞ—¿‚Ì‚‹@”\‰»"
    MAST21 ‘æ‚P‚S‰ñƒtƒH[ƒ‰ƒ€
    •½¬‚Q‚P”N‚P‚PŒŽ‚Q‚V“ú
  4. ¬“‡®”V
    "ƒKƒX–@‚É‚æ‚éƒ`ƒ^ƒ“Þ—¿‚Ì•\–Êd‰»ˆ—"
    “ú–{‹à‘®Šw‰ï ‹@”\«ƒ`ƒ^ƒ“‡‹àŒ¤‹†‰ï‘æ‚Q‰ñu‰‰‰ï
    •½¬‚Q‚P”N‚P‚PŒŽ‚Q‚O“ú
  5. T. Narushima, K. Ueda, T. Goto
    "Surfade modification of titanium by dry process for biomedical applications"
    The 9th International Symposium on Biomaterials
    Kyungpook National University, Daegu, Korea
    2009 Oct. 29
  6. ¬“‡®”V
    "V‚µ‚¢—p“rŠJ”­(IV)@¶‘ÌEˆã—×p“r"
    ‘æ‚U‚P‰ñ”’΋L”OuÀAƒ†ƒrƒLƒ^ƒXŽž‘ã‚ÉŒü‚¯‚½ƒ`ƒ^ƒ“‚ÌŒ³‘fí—ª‚ÆV‚µ‚¢—p“r“WŠJ
    “ú–{“S|‹¦‰ï
    “Œ‹ž“d‹@‘åŠw
    •½¬‚Q‚P”N‚P‚OŒŽ‚X“ú
  7. ¬“‡®”VAã“c‹±‰îAŒã“¡F
    "œ/ƒŠƒ“Ž_ƒJƒ‹ƒVƒEƒ€ƒR[ƒeƒBƒ“ƒO–Œ/ƒ`ƒ^ƒ“ƒCƒ“ƒvƒ‰ƒ“ƒgŠE–Ê‚Ì—ÍŠw“Á«"
    “ú–{‹à‘®Šw‰ï2009”NHŠúi‘æ‚P‚S‚T‰ñj‘å‰ïAŒö•åƒVƒ“ƒ|ƒWƒEƒ€u—ÍŠw“I¶‘Ì“I–\­v
    ‹ž“s‘åŠw
    •½¬‚Q‚P”N‚XŒŽ‚P‚U“ú
  8. T. Narushima
    "Surfade modification of titanium by pack cementation process for biomedical applications"
    The third International Conference on Processing, Manufacturing of Advanced Materials (ICAM-2009)
    Seacloud Hotel, Busan, Korea
    2009 July 9
  9. T. Narushima
    "Fabrication and evaluation of calcium phosphate films coated on blast-treated Ti-6Al-4V substrate"
    International Conference on Materials for Advanced Technologies (ICMAT200))
    Symposium A, Advanced Biomaterials and Regenerative Medicine
    Suntec Sigapore International Convention & Exhibition Centre, Singapore
    2009 June 30
  10. ¬“‡®”V
    "‹à‘®Œn¶‘ÌÞ—¿»‘¢ƒvƒƒZƒX‚É‚¨‚¯‚éŒnŒ³‘f‚Ì‹““®"
    ‘æ‚P‚Q‚U‰ñ“ÁŽê|•”‰ï‘å‰ï@Œ´Þ—¿‚ÉŠÖ‚·‚é‘€‹Æ‰ü‘PA‹Zp‰ü‘P
    “ú–{“S|‹¦‰ï
    (Š”)Z—F|“S˜a‰ÌŽR@˜a‰ÌŽR»“SŠ
    •½¬‚Q‚P”N‚UŒŽ‚S“ú
  11. ¬“‡®”V
    "Ž_‘f‚ð—˜—p‚µ‚½ƒ`ƒ^ƒ“‚Ì•\–ÊE‘gD§Œä"
    ‘æ34‰ñ ÞŽ¿§ŒäŒ¤‹†‰ï\Ž•‰ÈÞ—¿‚ð’†S‚µ‚½¶‘ÌÞ—¿ŠJ”­‚ÌÅ‘Oü\
    “ú–{‹à‘®Šw‰ïE“ú–{“S|‹¦‰ï’†‘Žl‘Žx•”AL“‡‘åŠwŽ•Šw•”Œûo•ÛŒ’Šw‰È
    L“‡‘åŠw Ž•Šw•”@i‰àƒLƒƒƒ“ƒpƒXj
    •½¬20”N12ŒŽ26“ú
  12. T. Narushima
    "In vivo and in vitro evaluation of amorphous calcium phosphate films coated on titanium implants by RF magnetron sputtering"
    4th International Symposium on Designing, Processing and Properties of Advanced Engineering Materials (ISAEM-2008)
    2008 December 21
  13. T. Narushima, S. Watanabe, K. Kato, K. Ueda,
    "Calcium phosphate formation on NaOH-treated titanium in simulated body fluids"
    KIM-JIM Symposium, the 2008 Fall Annual Meeting of the KIM,
    the Songdo Convensia, Korea.
    2008 October 23
  14. Takayuki Narushima
    "Amorphous Calcium Phosphate Thin Film Coated on Titanium Implant by RF Magnetron Sputtering"
    2nd PNU-IMR Joint Workshop on Advanced and Bio Materials
    Pusan National University, Korea.
    2008 June 7
  15. ã“c‹±‰îA¬“‡®”VAŒã“¡F
    uRFƒ}ƒOƒlƒgƒƒ“ƒXƒpƒbƒ^ƒŠƒ“ƒO–@‚É‚æ‚éƒ`ƒ^ƒ“•\–ʂւ̃Šƒ“Ž_ƒJƒ‹ƒVƒEƒ€ƒR[ƒeƒBƒ“ƒOv
    •\–Ê‹Zp‹¦‰ïuƒiƒmƒeƒN•”‰ïv‘æ24‰ñŒ¤‹†‰ïiˆãHŠwÞ—¿EƒfƒoƒCƒX‚Ì‚½‚ß‚Ì•\–ʈ—‹Zpj@Ž‘—¿p.19-23.
    “Œ‹ž—‰È‘åŠwXŒË‹L”OŠÙ@•½¬20”N5ŒŽ13“ú
  16. ¬“‡®”V
    "ƒŠƒ“Ž_ƒJƒ‹ƒVƒEƒ€ƒR[ƒeƒBƒ“ƒO‚ðŽ{‚µ‚½ƒ`ƒ^ƒ“Þ—¿‚̶‘Ì“àŠO•]‰¿"
    ŽÐ’c–@lŒy‹à‘®Šw‰ï‘æ113‰ñH‹G‘å‰ï@ˆã—ÃE•ŸŽƒƒŒƒWƒƒ[—p‹@Ší‚ւ̃`ƒ^ƒ“Þ—¿‚ð’†S‚Æ‚·‚éŒy‹à‘®‡‹à‚̉ž—p
    ç—t‘åŠw
    •½¬19”N11ŒŽ10“ú
  17. T. Narushima
    "Calcium Phosphate Coating on Titanium by RF Magnetron Sputtering for Medical Applications"
    The joint symposium on advanced materials between Pusan nationals university and Tohoku university
    Pusan, Korea
    2007 May 8
  18. ¬“‡®”V
    "¶‘Ì—pƒ`ƒ^ƒ“Þ—¿‚Ì‚‹@”\‰»"
    ƒ`ƒ^ƒmƒ~ƒbƒNƒXu‰‰‰ï
    –L‹´¤H‰ï‹cŠ
    •½¬19”N2ŒŽ2“ú
  19. ¬“‡®”V
    "æiˆã—ÃÞ—¿HŠw‚Ö‚Ì“WŠJ"
    ˆäŒûƒJƒ“ƒtƒ@ƒŒƒ“ƒXA“S–è‹à‚©‚çæ’[ˆã—ÃÞ—¿EŠÂ‹«‹Zp‚Ü‚Å
    ‘ãX–Ø‹äŠy•”
    •½¬18”N12ŒŽ15“ú
  20. ¬“‡®”V
    "ƒ`ƒ^ƒ“ã‚É컂µ‚½ƒŠƒ“Ž_ƒJƒ‹ƒVƒEƒ€ƒXƒpƒbƒ^ƒŠƒ“ƒO–Œ‚̶‘Ì“àŠO•]‰¿"
    “Œ–k‘åŠw‹à‘®Þ—¿Œ¤‹†Š‹¤“¯Œ¤‹†ƒ[ƒNƒVƒ‡ƒbƒv
    “Œ–k‘åŠw‹à‘®Þ—¿Œ¤‹†Š
    •½¬18”N12ŒŽ13“ú
  21. ¬“‡®”V
    "Evaluation of RF-magnetron-sputtered calcium phosphate films on titanium for implant applications"
    The 2nd. Korean-Japan joint workshop on biomedical materials
    Korean Institute of Industrial Technology, Inchon, Korea
    2006 Oct. 11
  22. ¬“‡®”V
    "ƒŠƒ“Ž_ƒJƒ‹ƒVƒEƒ€ƒR[ƒeƒBƒ“ƒO‚É‚æ‚éƒ`ƒ^ƒ“Þ—¿‚̶‘Ì‹@”\‰»"
    ‘æ5‰ñŽŸ¢‘ãˆã—ÃVƒXƒeƒ€ŽY‹Æ‰»ƒtƒH[ƒ‰ƒ€2006
    ‘åã¤H‰ï‹cŠA‘åã
    •½¬18”N8ŒŽ4“ú
  23. T. Narushima
    "Calcium Phosphate Coating on Titanium by RF Magnetron Sputtering for Medical Applications"
    Thermecf2006, International Conference on Processing & Manufacturing of Advanced Materials, Biomaterials
    Vancouver, Canada
    2006 July 5
  24. T. Narushima
    "Calcium Phosphate Coating on Titanium by RF Magnetron Sputtering"
    Non-ferrous Metal Seminar between China and Japan
    Northwest Institute for Non-ferrous Metal Research (NIN), Xifan, China
    2006 March 16
  25. T. Narushima
    "Calcium Phosphate Films Coated on Titanium by RF Magnetron Sputtering"
    Korea-Japan Symposium on Nano-Bio Technology, Interdisciplinary Science of Nanomaterials for Asia Core Program- KOSEF and JSPS
    Yongpyong Resort, Korea
    2006 Feb. 15
  26. ¬“‡®”V
    "ƒŠƒ“Ž_ƒJƒ‹ƒVƒEƒ€ƒR[ƒeƒBƒ“ƒO‚É‚æ‚éƒ`ƒ^ƒ“Þ—¿‚̶‘Ì‹@”\‰»"
    Šwp“¢˜_‰ï@ŽáŽè¶‘ÌÞ—¿Œ¤‹†ŽÒ‚ª–ÚŽw‚·‹à‘®‚ƃZƒ‰ƒ~ƒbƒNƒXA‚•ªŽq‚Ƃ̃Cƒ“ƒeƒOƒŒ[ƒg¶‘Ì‹@”\Þ—¿
    “ú–{‹à‘®Šw‰ïE“ú–{“S|‹¦‰ïA“ŒŠCŽx•”EŠÖ¼Žx•”A“ŒŠCŽáŽèÞ—¿Œ¤‹†‰ï‹¤Ã
    –¼ŒÃ‰®‘åŠw
    •½¬18”N1ŒŽ20“ú
  27. T. Narushima
    "Characterization of Calcium Phosphate Films Prepared by RF Magnetron Sputtering"
    The 1st Korean-Japan joint workshop on biomedical materials
    Korean Institute of Industrial Technology, Jeju, Korea
    2005 Dec. 12
  28. T. Narushima
    "Characterization of Calcium Phosphate Films Prepared by RF Magnetron Sputtering"
    2005 MRS Fall Meeting MRS Symposium V, Materials and Devices for Smart Systems
    Sheraton Boston Hotel, Massachusetts, USA
    2005 Nov. 29
  29. ¬“‡®”V
    ‘æ9‰ñŒy‹à‘®ƒtƒH[ƒ‰ƒ€uQOLŒüã‚ð–ÚŽw‚·¶‘ÌÞ—¿v
    ƒpƒlƒŠƒXƒg
    (à)Œy‹à‘®§Šw‰ïA“Œ‹ž
    •½¬‚P‚V”N11ŒŽ11“ú
  30. T. Narushima
    "Research on Biocompatible Materials"
    Research Center for Metallurgy, Indonesian Institute of Sciences, Serpong, Indonesia
    2005 Aug. 1st
  31. ¬“‡®”V
    "“Œ–k‘åŠwæiˆãHŠwŒ¤‹†‹@\‚É‚¨‚¯‚鶑ÌÞ—¿‚ÉŠÖ‚·‚錤‹†"
    “Œ–k‘åŠw@‘fÞEÞ—¿ŠJ”­Œ¤‹†‰ï
    “Œ‹ž
    •½¬‚P‚V”N‚UŒŽ‚P‚O“ú
  32. ¬“‡®”V
    "V‚µ‚¢¶‘Ì—pƒ`ƒ^ƒ“‡‹à‚ÌŒ¤‹†ŠJ”­“®Œü‚Æ‚»‚̉ۑè"
    ‘æ17‰ñŽ•‰Èƒ`ƒ^ƒ“Šw‰ï@“Á•Êu‰‰
    ¯—ˉïŠÙ, å‘ä
    •½¬16”N2ŒŽ14“ú
  33. ¬“‡®”V
    "¶‘Ì–„ž‹à‘®Þ—¿‚ÌŠJ”­‚Æ“®Œü"
    “‡ª‘åŠw’nˆæ‹¤“¯Œ¤‹†ƒZƒ“ƒ^[ŒöŠJu‰‰‰ïuˆãŠw‚ð’†S‚Æ‚·‚é‹«ŠE—̈æu‰‰‰ïvuŽt
    ƒEƒFƒ‹ƒVƒeƒB“‡ª, o‰_
    •½¬15”N3ŒŽ18“ú