研究成果

論文

2021年

  • O. Gokcekaya, T. Ishimoto, S. Hibino, J. Yasutomi, T. Narushima and T. Nakano, “Unique crystallographic texture formation in Inconel 718 by laser powder bed fusion and its effect on mechanical anisotropy,” Acta Materialia, 212 (2021) 116876.
    doi:10.1016/j.actamat.2021.116876
  • K. Ueki, S. Yanagihara, K. Ueda, M. Nakai, T. Nakano and T. Narushima, “Improvement of strength and ductility by combining static recrystallization and unique heat treatment in Co-20Cr-15W-10Ni alloy for stent application,” Materials Science Forum, 1016 (2021) 1503–1509
    doi: 10.4028/www.scientific.net/MSF.1016.1503
  • K. Ueki, S. Yanagihara, K. Ueda, M. Nakai, T. Nakano and T. Narushima, “Improvement of mechanical properties relating to microstructure for biomedical Co–Cr–W–Ni alloys with addition of Mn and Si,” Mater. Trans., 62 (2021) 229–238.
    doi:10.2320/matertrans.MT-M2020300
  • O. Gokcekaya, T. Ishimoto, T. Todo, R. Suganuma, R. Fukushima, T. Narushima, and T. Nakano, “Effect of scan length on densification and crystallographic texture formation of pure chromium fabricated by laser powder bed fusion,” Crystals, 11 (2021) 9.
    doi: 10.3390/cryst11010009
  • T.Ueda, N.Sato, Koizumi, K. Ueda, K. Ito, K. Ogasawara and T. Narushima, “Formation of carbon-added anatase-rich TiO2 layers on titanium and their antibacterial properties in visible light,” Dental Materials, 37 (2021) e37–e46.
    doi: 10.1016/j.dental.2020.10.009

2020年

  • O. Gokcekaya, N. Hayashi, T. Ishimoto, K. Ueda, T. Narushima and T. Nakano, “Crystallographic orientation control of pure chromium via laser powder-bed fusion and improved high temperature oxidation resistance,”Additive Manufacturing, 36 (2020), 101624.
    open access
    doi: 10.1016/j.addma.2020.101624
  • O. Gokcekaya, K. Ueda, T. Narushima and T. Nakano, “Using HAADF-STEM for atomic-scale evaluation of incorporation of antibacterial Ag atoms in a β-tricalcium phosphate structure,” Nanoscale, 12 (2020) 16596–16604.
    doi: 10.1039/d0nr04208k
  • S.Kr. Bhattacharya, R. Sahara and T. Narushima, “Predicting the parabolic rate constants of high-temperature oxidation of Ti alloys using machine learning,” Oxid. Met., 94 (2020) 205–218.
    doi: 10.1007/s11085-020-09986-3
  • K. Ueda, M. Omiya, Y. Hirose and T. Narushima, “Development of a+b-type biomedical Ti-Nb alloys with high oxygen content,” MATEC Web of Conferences, 321 (2020) 05003.
    Proceedings of the 14th World Conference on Titanium, (2020).
    doi: 10.1051/matecconf/202032105003
  • J. Wu, K. Ueda and T. Narushima, “Fabrication and bioresorbability of Ag- and Ta-containing amorphous calcium phosphate films formed on titanium substrates by RF magnetron sputtering,”
    MATEC Web of Conferences, 321 (2020) 05007.
    Proceedings of the 14th World Conference on Titanium, (2020).
    doi: 10.1051/matecconf/202032105007
  • J. Wu, K. Ueda and T. Narushima, “Fabrication of Ag and Ta co-doped amorphous calcium phosphate coating films by radiofrequency magnetron sputtering and their antibacterial activity,” Mater. Sci. Eng. C, 109 (2020) 110599 (10 pages).
    doi:10.1016/j.msec.2019.110599
  • K. Ueki, M. Kasamatsu, K. Ueda, Y. Koizumi, D. Wei, A. Chiba and T. Narushima, “Precipitation during γ-ε phase transformation in biomedical Co-Cr-Mo alloys fabricated by electron beam melting,” Metals, 10 (2020) 71 (13 pages).
    doi:10.3390/met10010071

2019年

  • K. Ueki, S. Yanagihara, K. Ueda, M. Nakai, T. Nakano and T. Narushima, “Overcoming the strength-ductility trade-off by the combination of static recrystallization and low-temperature heat treatmentin Co-Cr-W-Ni alloy for stent application,” Mat. Sci. Eng. A, 766 (2019) 138400 (11 pages).
    doi: 10.1016/j.msea.2019.138400
  • F. Yamashita, Y. Ide, S. Kato, K. Ueda, T. Narushima, S. Kise, K. Ishikawa and M. Nishida, “Effect of nonmetallic inclusions on fatigue properties of superelastic Ti-Ni fine wire,” Metals, 9 (2019) 999 (11 pages).
    doi:10.3390/met9090999
  • R. Sitalaksmi, K. Ito, K. Ogasawara, Y. Suto, M. Itabashi, K. Ueda, N. Hirasawa, T. Narushima, S. Higuchi, N. Sato, N. Hendrijantini, U. Kresnoadi, K. Sasaki, “COX-2 Induces T cell accumulation and IFN-γ production during the development of chromium allergy,” Autoimmunity, 52 [5-6] (2019) 228–234.
    doi: 10.1080/08916934.2019.1662404
  • M. Watanabe, F. Sato, R. Abe, K. Ueda, D. Matsuwaka, F. Kudo and T. Narushima, “Deoxidation of Ti melt by newly developed two-step plasma arc melting process using hydrogen,” Metall. Mater. Trans. B,50 [4] (2019) 1553–1558.
    doi: 10.1007/s11663-019-01608-x
  • S. Sado, T. Ueda, Y. Tokuda, N. Sato, K. Ueda and T. Narushima, “Formation of photocatalytic active TiO2layers on Ti-Nb alloys by two-step thermal oxidation,” Mater. Trans., 60 (2019) 1814–1820.
    doi: 10.2320/matertrans.ME201901
  • T. Ueda, K. Ueda, K. Ito, K. Ogasawara, H. Kanetaka, T. Mokudai, Y. Niwano and T. Narushima, “Visible-light responsiveantibacterial activity of Au-incorporated TiO2layers formed on Ti-(0–10)at%Au alloys by air oxidation,” J. Biomed. Mater. Res. A., 107 [5] (2019) 991–1000.
    doi: 10.1002/jbm.a.36624
  • O. Gokcekaya, K. Ueda, K. Ogasawara, T. Narushima, “Antibacterial activity of Ag nanoparticle-containing hydroxyapatite powders in simulated body fluids with Cl ions,” Materials Chemistry and Physics, 223 (2019) 473–478.
    doi: 10.1016/j.matchemphys.
  • K. Maeda, S. Suzuki, K. Ueda, T. Kitashima, Somesh Kr. Bhattacharya, R. Sahara and T. Narushima, “Experimental and theoretical study of the effect of Si addition on oxidation behavior of Ti-6Al-4V alloys,” J. Alloys Compd., 776 (2019) 519–528.
    doi: 10.1016/j.jallcom.2018.10.291
  • K. Ueki, M. Abe, K. Ueda, M. Nakai, T. Nakano and T. Narushima, “Synchronous improvement in strength and ductility of biomedical Co–Cr–Mo alloy by unique low-temperature heat treatment,” Mat. Sci. Eng. A, 739 (2019) 53–61.
    doi: 10.1016/j.msea.2018.10.016
  • S.K. Bhattacharya, R. Sahara, S. Suzuki, K. Ueda and T. Narushima, “Mechanism of oxidation of pure and Si-segregated a-Ti surfaces,” Appl. Surf. Sci., 463 (2019) 686–692.
    doi: 10.1016/j.apsusc.2018.08.253

2018年

  • D. Wei, Y. Koizumi, A. Chiba, K. Ueki, K. Ueda, T. Narushima, Y. Tsutsumi and T. Hanawa, “Heterogeneous microstructures and corrosion resistance of biomedical Co-Cr-Mo alloy fabricated by electron beam melting (EBM),” Additive Manufacturing, 24 (2018) 103–114.
    doi: 10.1016/j.addma.2018.09.006
  • K. Ueki, K. Ueda, M. Nakai, T. Nakano and T. Narushima, “Microstructural changes during plastic deformation and corrosion properties of biomedical Co-20Cr-15W-10Ni alloy heat-treated at 873 K,” Metall. Mater. Trans. A, 49 (2018) 2393–2404.(1.874)
    doi: 10.1007/s11661-018-4597-0

2017年

  • S. K. Bhattacharya, R. Sahara, K. Ueda and T. Narushima, “Effect of Si on the oxidation reaction of α-Ti (0001) surface: ab initio molecular dynamics study,” Sci. Tech. Ad. Mater., 18 [1] (2017) 998–1004.
    doi: 10.1080/14686996.2017.1403273
  • S. K. Bhattacharya, R. Sahara, T. Kitashima, K. Ueda and T. Narushima, “First principles study of oxidation of Si segregated a-Ti(0001) surfaces,” Jpn. J. Appl. Phys., 56 [12] (2017) 125701-1–125701-7. (1.384).
    doi:10.7567/JJAP.56.125701
  • M. Omiya, K. Ueda and T. Narushima, “Microstructure and mechanical properties of an α+β type Ti-4V-0.6O alloy,” Mater. Trans., 58 [9] (2017) 1250–1256.
    doi:10.2320/matertrans.L-M2017825
    open access
  • Alfirano, A. Milandia and T. Narushima, “Effect of heat treatment and alloying elements on precipitation and surface behavior of Co-Cr-Mo alloys,” ARPN Journal of Engineering and Applied Sciences, 12 [12] (2017) 3808–3812.
  • Y. Takeda, Y. Suto, W. Hashimoto, T. Nishiya, K. Ueda, T. Narushima, T. Takahashi and K. Ogasawara, “TRAV7-2*02 expressing CD8+T cells are responsible for Palladium allergy”, Int. J. Mol. Sci., 18 (2017) 1162 (12p). (3.257).
    doi:10.3390/ijms18061162
  • O. Gokcekaya, T.J. Webster, K. Ueda, T. Narushima, and C. Ergun, “In vitro performance of Ag-incorporated hydroxyapatite and its adhesive porous coatings deposited by electrostatic spraying,” Mater. Sci. Eng. C, 77 (2017)556–564. (3.420).
    doi: 10.1016/j.msec.2017.03.233
  • M. Watanabe, F. Sato, K. Ueda, D. Matsuwaka and T. Narushima, “Removal of oxygen in Ti-Si melts by arc-melting,” Mater. Trans., 58 [4] (2017) 613–618.
    doi:10.2320/matertrans.M2017003
  • S. Lee, K. Ueda, T. Narushima, T. Nakano and T. Kasuga, “Preparation of orthophosphate glasses in the MgO–CaO–SiO2–Nb2O5–P2O5system,” Bio-Medical Materials and Engineering 28 [1] (2017) 23–30.
  • O. Gokcekaya, K. Ueda, K. Ogasawara, H. Kanetaka and T. Narushima, “In vitro evaluation of Ag-containing calcium phosphates: Effectiveness of Ag-incorporated β-tricalcium phosphate,” Mater. Sci. Eng. C, 75 (2017)926–933. (3.420).
    doi: 10.1016/j.msec.2017.02.059
  • P.F. Santos, M. Niinomi, K. Cho, H. Liu, M. Nakai, T. Narushima, K. Ueda and Y. Itoh, “Effects of Mo addition on the mechanical properties and microstructures of Ti-Mn alloys fabricated by metal injection molding for biomedical applications,” Mater. Trans., 58 (2017) 271–279.
    doi:10.2320/matertrans.M2016286
  • P.F. Santos, M. Niinomi, H. Liu, M. Nakai, K. Cho, T. Narushima, K. Ueda, N. Ohtsu, M. Hirano and Y. Itoh, “Development and performance of low-cost beta-type Ti-based alloys for biomedical applications using Mn additions,” Chapter 19, Interface Oral Health Science 2016, Innovative Research on Biosis-Abiosis Intelligent Interface, Ed. K. Sasaki, O. Suzuki and N. Takahashi, Springer, (2017), 229–245.
    doi: 10.1007/978-981-10-1560-1_19
  • T. Ueda, N. Kondo, S. Sado, O. Gokcekaya, K. Ueda, K. Ogasawara and T. Narushima, “Ceramic coating of Ti and its alloys using dry processes for biomedical applications,” Chapter 2, Interface Oral Health Science 2016, Innovative Research on Biosis-Abiosis Intelligent Interface, Ed. K. Sasaki, O. Suzuki and N. Takahashi, Springer, (2017), 23–34.
    doi: 10.1007/978-981-10-1560-1_2
  • O. Gokcekaya, K. Ueda, T. Narushima, K. Ogasawara and H. Kanetaka, “In vitro properties of Ag-containing calcium phosphates,” Advances in Ceramic Armor, Bioceramics, and Porous Materials: Ceramic Engineering and Science Proceedings, 37 [4] (2017) 87–93.
    doi: 10.1002/9781119321682.ch10

2016年

  • S. Lee, H. Uehara, A.L.B. Maçon, H. Maeda, A. Obata, K. Ueda, T. Narushima and T. Kasuga, “Preparation of antibacterial ZnO-CaO-P2O5-Nb2O5invert glasses,” Mater. Trans., 57 [12] (2016) 2072–2076.
    doi:10.2320/matertrans.MI201503
  • K. Ueda, M. Kasamatsu, M. Tanno, K. Ueki, J. Geringer and T. Narushima, “Effects of precipitates and albumin in simulated body fluids on pin-on-disk wear behavior of biomedical Co-Cr-Mo alloys,” Mater. Trans., 57 [12] (2016) 2054–2059.
    doi:10.2320/matertrans.MI201518
  • K. Ueki, Y. Kurihara, S. Mineta, Alfirano, K. Ueda, S. Namba, T. Yoneda and T. Narushima, “Changes in microstructure of biomedical Co-Cr-Mo alloys during aging at 973 to 1373 K,” Mater. Trans., 57 [12] (2016) 2048–2053.
    doi:10.2320/matertrans.MI201507
  • M. Isik, M. Niinomi, H. Liu, K. Cho, M. Nakai, Z. Horita, T. Narushima and K. Ueda, “Optimization of microstructure and mechanical properties of Co–Cr–Mo alloys subjected to high-pressure torsion using a subsequent short-time annealing,” Mater. Trans., 57 [11] (2016) 1887–1896.
    doi.org/10.2320/matertrans.M2016112
  • T. Ueda, S. Sado, K. Ueda and T. Narushima, “Formation of TiO2layers on Ti-Au alloy using two-step thermal oxidation and their visible-light photocatalytic activity,” Mater. Lett., 185 (2016) 290–294.
  • P.F. Santos, M. Niinomi, H. Liu, K. Cho, M. Nakai, A. Trenggono, S. Champagne, H. Hermawan and T. Narushima, “Improvement of microstructure, mechanical and corrosion properties of biomedical Ti-Mn alloys by Mo addition,” Mater. Design, 110 (2016) 414–424.
    doi: 10.1016/j.matdes.2016.07.115
  • M. Isik, M. Niinomi, H. Liu, K. Cho, M. Nakai, Z. Horita, S. Sato, T. Narushima, H. Yilmazer and M. Nagasako, “Grain refinement mechanism and evolution of dislocation structure of Co–Cr–Mo alloy subjected to high-pressure torsion,” Mater. Trans., 57 (2016) 1109–1118.
    doi:10.2320/matertrans.M2016052
  • K. Ueda, R. Hashimoto, T. Wada, H. Kato and T. Narushima, “Formation of Ni-deallyed porous layer on NiTi by immersion in metallic melts,” Journal of the Japan Society of Powder and Powder Metallurgy, 63 [8 ] (2016) 766–770.
    doi: 10.2497/jjspm.63.766
  • T. Narushima, N. Umetsu, T. Ueda, S. Sado and K. Ueda, “Formation and evaluation of thermally-oxidized titania layers on commercially pure Ti,” Proceedings of Ti-2015: The 13th World Conference on Titanium, (2016), 1717–1721.
    doi: 10.1002/9781119296126.ch288
  • K. Ueki, K. Ueda and T. Narushima, “Microstructure and mechanical properties of heat treated Co-20Cr-15W-10Ni alloy for biomedical application,” Metall. Mater. Trans. A, 47 (2016) 2773–2782.
    doi: 10.1007/s11661-016-3488-5
  • N. Iguchi, Y. Takeda, N. Sato, K. Ukichi, A. Katakura, K. Ueda, T. Narushima, S. Higuchi and K. Ogasawara, “The antihistamine olopatadine regulates T cell activation in palladium allergy,” International Immunopharmacology, 35 (2016) 70–76.
    doi: 10.1016/j.intimp.2016.03.021
  • P.F Santos, M. Niinomi, H. Liu, M. Nakai, K. Cho, Y. Itoh, T. Narushima and M. Ikeda, “Fabrication of low-cost beta-type Ti-Mn alloys for biomedical applications by metal injection molding process and their mechanical properties,” J. Mech. Behav. Biomed. Mater., 59 (2016) 497–507.
    doi:10.1016/j.jmbbm.2016.02.035
  • S. Lee, H. Maeda, A. Obata, K. Ueda, T. Narushima and T. Kasuga, “Structures and dissolution behaviors of MgO–CaO–P2O5–Nb2O5glasses,”J. Non-Cryst. Solids, 438 (2016) 18–25.
    doi: 10.1016/j.jnoncrysol.2016.02.006
  • M. Isik, M. Niinomi, K. Cho, M. Nakai, H. Liu, H. Yilmazer, Z. Horita and T. Narushima, “Microstructural evolution and mechanical properties of Co–Cr–Mo alloy subjected to high-pressure torsion,” J. Mech. Behav. Biomed. Mater., 59 (2016) 226–235.
    doi: 10.1016/j.jmbbm.2015.11.015
  • 上田恭介, 小林達矢, 成島尚之, “α+β型Ti-(0~10)mass%V-(0.5~1)mass%O合金の組織と機械的特性,”日本金属学会誌, 80 [1] (2016) 60–65.
    [K. Ueda, T. Kobayashi and T. Narushima, “Microstructure and mechanical property of a+b type Ti-(0~10)mass%V-(0.5~1)mass%O alloys,” J. Jpn. Inst. Met., 80 [1] (2016) 60–65.]
    doi: 10.2320/jinstmet.JB201503
  • K. Cho, M. Niinomi, M. Nakai, P.Fernandes Santos, H. Yilmazer, Y. Itoh, M. Ikeda, M. Abdel-Hady Gepreel and T. Narushima, “Improvement in mechanical strength of low-cost β-Type Ti-Mn alloys fabricated by metal injection molding through cold rolling,” J. Alloys Compd., 664 (2016) 272–283.
    doi:10.1016/j.jallcom.2015.12.200
  • H. Maeda, S. Lee, T. Miyajima, A. Obata, K. Ueda, T. Narushima and T. Kasuga, “Structure and physicochemical properties of CaO–P2O5–Nb2O5–Na2O glasses”, Journal of Non-Crystalline Solids, 432 (2016) 60–64.
    doi: 10.1016/j.jnoncrysol.2015.06.003

2015年

  • T. Narushima, S. Sado, N. Kondo, K. Ueda, M. Kawano and K. Ogasawara, “Evaluation of photocatalytic activity of the TiO2layer formed on Ti by thermal oxidation,” in Interface Oral Health Science 2014, Innovative Research on Biosis-Abiosis Intelligent Interface, Ed. K. Sasaki, O. Suzuki and N. Takahashi, Springer, (2015), pp. 65–78.
    doi: 10.1007/978-4-431-55192-8_6
  • S. Sado, T. Ueda, K. Ueda and T. Narushima, “Formation of TiO2layers on commercially pure Ti and Ti-Mo and Ti-Nb alloys by two-step thermal oxidation and their photocatalytic activity,” Appl. Surf. Sci., 357 (2015) 2198–2205.
    doi: 10.1016/j.apsusc.2015.09.211
  • M. Isik, M. Niinomi, H. Liu, M. Nakai, K. Cho, Z. Horita and T. Narushima,“Microstructure and balanced mechanical properties of short-time solution treated Co-Cr-Mo alloys processed through high-pressure torsion,” Proceedings of the 24th International Symposium on Processing and Fabrication of Advanced Materials, PFAM XXIV, 2015, pp. 680–685.
  • M. Watanabe, K. Ueda, T. Narushima and D. Matsuwaka,“Behavior of oxygen in arc-melted Ti–Si alloys,” Proceedings of the 24th International Symposium on Processing and Fabrication of Advanced Materials, PFAM XXIV, 2015, pp. 513–520.
  • P.F. Santos, M. Niinomi, H. Liu, M. Nakai, K. Cho and T. Narushima, “Design, microstructural characterization and mechanical evaluation of novel Ti-Mn-Mo alloys for biomedical applications,” Proceedings of the 24th International Symposium on Processing and Fabrication of Advanced Materials, PFAM XXIV, 2015, pp. 120–125.
  • O. Gokcekaya, K. Ueda, T. Narushima and K. Ogasawara,“In vitro evaluation of Ag-containing calcium phosphates,” Proceedings of the 24th International Symposium on Processing and Fabrication of Advanced Materials, PFAM XXIV, 2015, pp. 95–103.
  • K. Ueki, K. Ueda and T. Narushima,“Microstructure, tensile properties and corrosive properties of ASTM F90 Co-20Cr-15W-10Ni Alloys,” Proceedings of the 24th International Symposium on Processing and Fabrication of Advanced Materials, PFAM XXIV, 2015, pp. 50–58.
  • K. Hara, K. Ueda, T. Narushima, F. Yamashita and K. Ishikawa,“Rotating-bending fatigue properties of NiTi wires for biomedical application,” Proceedings of the 24th International Symposium on Processing and Fabrication of Advanced Materials, PFAM XXIV, 2015, pp. 20–28.
  • S. Lee, H. Maeda, A. Obata, K. Ueda, T. Narushima and T. Kasuga, “Structure and dissolution behavior of MgO–P2O5–TiO2/Nb2O5(Mg/P ≥ 1) invert glasses,” J. Ceram. Soc. Jpn. 123 [10] (2015) 942–948.
    doi: 10.2109/jcersj2.123.942
  • P. Fernandes Santos, M. Niinomi, K. Cho, M. Nakai, H. Liu, N. Ohtsu, M. Hirano, M. Ikeda and T. Narushima, “Microstructures, mechanical properties and cytotoxicity of low cost beta Ti-Mn alloys for biomedical applications,” Acta Biomater. 26 (2015) 366–376.
    doi: 10.1016/j.actbio.2015.08.015
  • K. Sugawara, Alfirano, S. Mineta, K. Ueda and T. Narushima, “Formation of the c-phase precipitate in Co-Cr-Mo alloys with additional Si and C,” Metall. Mater. Trans. A, 46 [9] (2015) 4342–4350.
    doi: 10.1007/s11661-015-3008-z
  • O. Gokcekaya, K. Ueda and T. Narushima, “Control of Ag release from Ag-containing calcium phosphates in simulated body fluid,” Ceramic Transactions, Volume 254; Biomaterials Science – Processing, Properties and Applications V, Edited by Roger Narayan, Amit Bandyoadhyay, and Susmita Bose; Published by The American Ceramic Society, 2015, 13–20.
    doi: 10.1002/9781119190134.ch2
  • O. Gokcekaya, K. Ueda, T. Narushima and C. Ergun, “Synthesis and characterization of Ag-containing calcium phosphates with various Ca/P ratios,” Mater. Sci. Eng. C, 53 (2015) 111–119.
    doi: 10.1016/j.msec.2015.04.025
  • S. Lee, H. Maeda, A. Obata, K. Ueda, T. Narushima and T. Kasuga, “Structures and dissolution behaviors of CaO-P2O5-TiO2/Nb2O5(Ca/P ≥ 1) invert glasses,” J. Non-Cryst. Solids, 426 (2015) 35–42.
    doi: 10.1016/j.jnoncrysol.2015.06.024

2014年

  • M. Isik, M. Niinomi, K. Cho, M. Nakai, J. Hieda, H. Yilmazer, Z. Horita and T. Narushima, “Microstructural analysis of biomedical Co–Cr–Mo alloy subjected to high-pressure torsion processing,” Key. Eng. Mat., 616 (2014) 263-269.
    doi:10.4028/www.scientific.net/KEM.616.263
  • K. Ueki, K. Ueda and T. Narushima, “Precipitate phases and mechanical properties of heat-treated ASTM F 90 Co-Cr-W-Ni alloy,” Key. Eng. Mat., 616 (2014) 258-262.
    doi:10.4028/www.scientific.net/KEM.616.258
  • S. Yokota, N. Nishiwaki, K. Ueda, T. Narushima, H. Kawamura and T. Takahashi, “Evaluation of thin amorphous calcium phosphate coatings on titanium dental implants deposited using magnetron sputtering,” Implant Dentistry, 23(3), (2014) 343–350.
    doi: 10.1097/ID.0000000000000098
  • M. Kawano, M. Nakayama, Y. Aoshima, K. Nakamura, M. Ono, T. Nishiya, S. Nakamura, Y. Takeda, A. Dobashi, A. Takahashi, M. Endo, A. Ito, K. Ueda, N. Sato, S. Higuchi, T. Kondo, S. Hashimoto, M. Watanabe, M. Watanabe, T. Takahashi, K. Sasaki, M. Nakamura, T. Sasazuki, T. Narushima, R. Suzuki amd K. Ogasawara, “NKG2D+IFN-γ+CD8+ T cells are responsible for palladium allergy,”
    PLOS one 9(2) (2014) e86810.
    doi: 10.1371/journal.pone.0086810
  • H. Maeda,T. Miyajima, S. Lee, A. Obata, K. Ueda, T. Narushima and T. Kasuga, “Preparation of calcium pyrophosphate glass-ceramics containing Nb2O5,” J. Ceram. Soc. Jpn., 122 [1] (2014) 122–124.
    doi:10.2109/jcersj2.122.122

2013年

  • O. Gokcekaya, K. Ueda, T. Narushima and C. Ergun, “Preparation of Ag-doped calcium phosphate,” Proceedings of the 8th Pacific Rim International Congress on Advanced Materials and Processing, (2013), 1679–1685.
  • K. Ueda, K. Nakaie, S. Namba, T. Yoneda, K. Ishimizu and T. Narushima, “Mass loss and ion elution of biomedical Co-Cr-Mo alloys during pin-on-disk wear tests,” Mater. Trans., 54 [8] (2013), 1281–1287.
    doi: 10.2320/matertrans.ME201316.
  • N. Umetsu, S. Sado, K. Ueda, K. Tajima and T. Narushima, “Formation of anatase on commercially pure Ti by two-step thermal oxidation using N2-CO gas,” Mater. Trans., 54 [8] (2013) 1302–1307.
    doi: 10.2320/matertrans.ME201315.
  • K. Ueda, S. Nakaoka and T. Narushima, “bgrain refinement of a+btype Ti-4.5Al-6Nb-2Fe-2Mo alloy using rare earth oxide precipitates,” Mater. Trans., 54 [2] (2013) 161–168.
    doi: 10.2320/matertrans.MC201207
  • D.Ito, N.Nishiwaki, K. Ueda and T. Narushima, “Effect of Ba deoxidation on oxygen content in NiTi alloys and non-metallic inclusions,” J. Mater. Sci., 48 [1] (2013) 359–366.
    doi: 10.1007/s10853-012-6753-z
  • S. Mineta, Alfirano,S. Namba, T. Yoneda, K. Ueda and T. Narushima, “Phase and formation/dissolution of precipitates in biomedical Co-Cr-Mo alloys with nitrogen addition,” Metall. Mater. Trans. A.44 [1] (2013) 494–503.
    doi: 10.1007/s11661-012-1399-7

2012年

  • M. Taira, W. Hatakeyama, H. Kihara, H. Kondo, K. Ueda and T. Narushima, “Quantitative analyses of osteogenic-differentiation-related gene expressions in human osteoblast-like cells (Saos-2) cultured on hydroxyapatite and titanium,” J. Oral Tissue. Engin., 10 [1] (2012) 34–41.
    doi: 10.11223/jarde.10.34
  • A. Obata, Y. Takahashi, T. Miyajima, K. Ueda, T. Narushima, and T. Kasuga, “Effects of niobium ions released from calcium phosphate invert glasses containing Nb2O5on osteoblast-like cell functions,” ACS Appl. Mater. Interfaces, 4[10] (2012) 5684–5690.
    doi: 10.1021/am301614a.
  • S. Mineta, Alfirano, S. Namba, T. Yoneda, K. Ueda and T. Narushima, “Precipitates in biomedical Co-28Cr-6Mo-(0–0.41)C alloys heat-treated at 1473 K to 1623 K (1200 ℃to 1350 ℃),” Metall. Mater. Trans. A, 43[9] (2012) 3351–3358.
    doi: 10.1007/s11661-012-1142-4
  • T. Narushima, D. Ito and K. Ueda, “Deoxidation of NiTi alloys using metallic barium and their microstructures,” Proceedings of the 12th World Conference on Titanium (Ti-2011), (2012), 2055–2058.
  • N.Umetsu, T.Okazumi, K. Ueda and T. Narushima, “Two-step gas treatment of commercially pure titanium for anatase layer formation,” Proceedings of the 12th World Conference on Titanium (Ti-2011), (2012), 2106–2110.
  • Y. Kimura, N. Umetsu, N. Iwata, S. Nakaoka, K. Ueda and T. Narushima, “Grain refinement in a+b-type Ti-4.5Al-6Nb-2Fe-2Mo alloys through precipitation of TiB or rare earth oxides,”Proceedings of the 12th World Conference on Titanium (Ti-2011), (2012), 2077–2080.
  • N. Shiraishi, T. Rong, R. Uzuka, T. Narushima, T. Goto, M. Niinomi, K. Sasaki and O. Suzuki, “Biomechanical evaluation of amorphous calcium phosphate coated TNTZ implants prepared using a radiofrequency magnetron sputtering system,” Mater. Trans., 53 [7] (2012) 1343–1348.
    doi: 10.2320/matertrans.M2012078
  • Alfirano, S. Mineta, S. Namba, T. Yoneda, K. Ueda and T. Narushima, “Precipitates in biomedical Co-Cr-Mo-C-N-Si-Mn alloys,” Metall. Mater. Trans. A, 43 [6] (2012) 2125–2132.
    doi: 10.1007/s11661-011-1009-0
  • S. Yokota, J. Kurihara, N. Nishiwaki, S. Tamate, K. Ueda, T. Narushima and H. Kawamura, “Accelerated bone formation around titanium dental implants with amorphous calcium phosphate coating in rabbit,” in Interface Oral Health Science 2011, ed. K. Sasaki, Springer, (2012), pp. 243–245.
    doi: 10.1007/978-4-431-54070-0_69
  • N. Shiraishi, Y. Suzuki, N. Sato, T. Anada, T. Goto, T. Rong, M. Niinomi, T. Narushima, K. Ueda, R. Uzuka, O. Suzuki and K. Sasaki, “Calcium phosphate-coated titanium alloy implants prepared by radiofrequency magnetron sputtering: a review,” in Interface Oral Health Science 2011, ed. K. Sasaki, Springer, (2012), pp. 352–354.
    doi: 10.1007/978-4-431-54070-0_102
  • T.Narushima, S.Mineta, Alfirano and K. Ueda, “p-phase and c-phase: new precipitates in biomedical Co-Cr-Mo alloys,” in Interface Oral Health Science 2011, ed. K. Sasaki, Springer, (2012), pp.72–80.
    doi: 10.1007/978-4-431-54070-0_12

2011年

  • R. Tanaka, Y. Goi, K. Ishihara, K. Ueda, T. Narushima, H. Ohtsu, K. Ohuchi, M. Hiratsuka and N. Hirasawa, “Assessment of the release of nickel from biomaterials in vivo and in vitro: enhancement by lipopolysaccharide,” Inflam. Regene., 31 (2011) 302–306.
    doi: 10.2492/inflammregen.31.302
  • T. Narushima, Alfirano,S. Mineta, S. Namba, T. Yoneda andK. Ueda, “Precipitates in biomedical Co-Cr-Mo-C-Si-Mn alloys,” Adv. Mater. Res., 277 (2011) 51–58.
    doi: 10.4028/www.scientific.net/AMR.277.51
  • T. Murakami, Y. Sugano, T. Narushima, Y. Iguchi and C. Ouchi, “Recovery of calcium from BF slag and synthesis of zeolite A using its residue,” ISIJ Int., 51 [6] (2011) 901–905.
    doi: 10.2355/isijinternational.51.901
  • Alfirano, S. Mineta, S. Namba, T. Yoneda, K. Ueda and T. Narushima, “Precipitates in as-cast and heat-treated ASTM F75 Co-Cr-Mo-C alloys containing Si and/or Mn,” Metall. Mater. Trans. A, 42 [7] (2011) 1941–1949.
    doi: 10.1007/s11661-011-0604-4
  • R. Tanaka, Y. Goi, K. Ishihara, K. Ueda, T. Narushima, H. Ohtsu, M. Hiratsuka and N. Hirasawa, “Enhancement of nickel elution by lipopolysaccharide-induced inflammation,” J. Dermatol. Sci., 62 [1] (2011) 50–57.
    doi:10.1016/j.jdermsci.2010.12.006
  • T. Okazumi, K. Ueda, K. Tajima, N. Umetsu and T. Narushima, “Anatase formation on titanium by two-step thermal oxidation,”J. Mater. Sci., 46 [9] (2011) 2998–3005.
    doi: 10.1007/s10853-010-5177-x
  • T. Murakami, Y. Sugano, T. Kinami, T. Narushima, Y. Iguchi and C. Ouchi, “Alkali hydrothermal synthesis of zeolite A using oxide by-products,” ISIJ Int., 51 [1] (2011) 158–165.
    doi: 10.2355/isijinternational.51.158

2010年

  • B. Poorganji, A. Kazahari, T. Narushima, C. Ouchi and T. Furuhara, “Effect of yttrium addition on grain growth of a, band a+btitanium alloys,” J. Phys.: Conf. Ser., 240 (2010), no.012170
    doi: 10.1088/1742-6596/240/1/012170
  • K. Ueda, H. Suto and T. Narushima, “Surface modification of titanium by pack cementation treatment using calcium phosphate powders for biomedical applications,” Met. Mater. Int., 16 [4] (2010) 569–572.
    doi: 10.1007/s12540-010-0808-y
  • 上田恭介,川﨑雄城,後藤孝,栗原淳,川村仁,成島尚之, “チタン上への多層リン酸カルシウムコーティング膜の作製とその評価,” 粉体および粉末冶金, 57 [4] (2010), 314–320.
    [K. Ueda, Y. Kawasaki, J. Kurihara, H. Kawamura and T. Narushima, “Fabrication and evaluation of multi-layered calcium phosphate coating film on titanium”, Journal of the Japan Society of Powder and Powder Metallurgy, 57 [5] (2010) 314–320.]
    doi:10.2497/jjspm.57.314
  • T. Narushima, “Calcium phosphate coating on titanium using dry process,” Mater.Sci.Forum, 654–656 (2010) 2162–2167.
    doi:10.4028/www.scientific.net/MSF.654-656.2162
  • K. Ueda, H. Suto, K. Nakaie and T. Narushima, “Pack cementation treatment of titanium using tetracalcium phosphate powder for biomedical applications,” Mater.Sci.Forum, 654–656 (2010) 2172–2175.
    doi:10.4028/www.scientific.net/MSF.654-656.2172
  • Alfirano, S. Mineta, S. Namba, T. Yoneda, K. Ueda and T. Narushima, “Heat treatment of ASTM F75 Co-Cr-Mo-C-Si-Mn alloys,” Mater. Sci. Forum, 654–656 (2010) 2180–2183.
    doi:10.4028/www.scientific.net/MSF.654-656.2180
  • S. Mineta, Alfirano,S. Namba, T. Yoneda, K. Ueda and T. Narushima, “Phase and morphology of carbides in ASTM F75 Co-Cr-Mo-C alloys formed at 1473 to 1623 K,” Mater.Sci. Forum, 654–656 (2010) 2176–2179.
    doi:10.4028/www.scientific.net/MSF.654-656.2176
  • S. Mineta, S. Namba, T. Yoneda, K. Ueda and T. Narushima, “Carbide formation and dissolution in biomedical Co-Cr-Mo alloys with different carbon contents during solution treatment,” Metall. Mater. Trans. A, 41 [8] (2010) 2129–2138.
    doi: 10.1007/s11661-010-0227-1
  • M. Taira, T. Kagiya, H. Harada, T. Nezu, 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.
    doi: 10.1007/s10856-009-3834-x
  • S. Mineta, S. Namba, T. Yoneda, K. Ueda and T. Narushima, “Changes in microstructure of biomedical Co-Cr-Mo-C alloys with solution treating and aging,” Adv. Mater. Res., 89–91 (2010) 377–382.
    doi: 10.4028/www.scientific.net/AMR.89-91.377
  • K. Ueda, T. Narushima, T. Goto, T. Katsube, H. Nakagawa, H. Kawamura and M. Taira, “Calcium phosphate coating on titanium implants by RF magnetron sputtering,” Mat. Sci. Forum, 631–632 (2010) 211–216.
    doi: 10.4028/www.scientific.net/MSF.631-632.211
  • M. Sato, R. Tu, T. Goto, K. Ueda and T. Narushima, “Preparation of functionally graded bio-ceramics film by MOCVD,” Mater. Sci. Forum, 631–632 (2010) 193–198.
    doi: 10.4028/www.scientific.net/MSF.631-632.193

2009年

  • Alfirano, S. Mineta, S. Namba, T. Yoneda, K. Ueda and T. Narushima, “Effect of addition of alloying elements on microstructure of biomedical Co-Cr-Mo alloy,” Proceedings of Processing and Fabrication of Advance Materials XVIII, Sendai, (2009) 1455–1464.
  • S. Mineta, Alfirano,S. Namba, T. Yoneda, K. Ueda and T. Narushima, “Behavior of precipitates in biomedical Co-Cr-Mo-C alloys during heat treatment,” Proceedings of Processing and Fabrication of Advance Materials XVIII, Sendai, (2009), 1301–1310.
  • Y.Z. Kim, T. Konno, T. Murakami, T. Narushima and C. Ouchi, “Surface hardening method for titanium materials using Ar-5%CO gas in combination with post heat treatment under vacuum,” Mater. Trans., 50 [12] (2009) 2763–2771.
    doi: 10.2320/matertrans.MA200911
  • K. Hagihara, T. Tachibana, K. Sasaki, Y. Yoshida, N. Shirakawa, T. Nagasawa, T. Narushima and T. Nakano, “Oxygen distribution in a titanium single crystal fabricated by an optical floating zone method under extremely low oxygen partial pressure,” Mater. Trans., 50 [12] (2009) 2709–2715.
    doi: 10.2320/matertrans.MA200903
  • M. Sato, R. Tu, T. Goto, K. Ueda and T. Narushima, “Precipitation behavior in a Hanks’ solution on Ca-P-O films prepared by laser CVD,” Mater. Trans., 50 [10] (2009) 2455–2459.
    doi: 10.2320/matertrans.M2009160
  • T. Narushima, K. Ueda and T. Goto, “Surface modification of titanium by dry process for biomedical applications,” Proceedings of the 9thInternational Symposium on Biomaterials, Kyungpook National University, Daegu, Korea, (2009), 22–27.
  • K. Ueda, Y. Kawasaki, T. Narushima, T. Goto, J. Kurihara, H. Nakagawa, H. Kawamura and M. Taira, “Calcium phosphate films with/without heat treatments fabricated using RF magnetron sputtering,”J.Biomech. Sci. Eng., 4 [3] (2009) 392–403.
    doi: 10.1299/jbse.4.392
  • S. Yonezawa, T. Narushima, K. Ueda, H. Kimura and Y. Iguchi, “Fatigue behaviors of ultra fine wires of b-type and a-type titanium alloys,” Mater. Trans., 50 [7] (2009) 1713–1719.
    doi: 10.2320/matertrans.MF200920
  • M. Taira, T. Nezu, M. Sasaki, S. Kimura, T. Kagiya, H. Harada, T. Narushima and Y. Araki, “Gene expression analyses of human macrophage phagocytizing sub-mtitanium particles by allergy DNA chip (GenopalTM),”Bio-Med. Mater. Eng., 19 (2009) 63–70.
    doi: 10.3233/BME-2009-0564
  • M. Sato, R. Tu, T. Goto, K. Ueda and T. Narushima, “Apatite formation behavior on bio-ceramic films prepared by MOCVD,” J. Ceram. Soc. Jpn., 117 [4] (2009) 461–465.
    doi: 10.2109/jcersj2.117.461

2008年

  • T. Murakami, K. Ohara, T. Narushima and C. Ouchi, “New manufacturing method of iron foam using precursor made of iron, graphite and hematite powders,” MetFoam 2007 – Proceedings of the 5th International Conference on Porous Metals and Metallic Foams, (2008), pp. 145–148.
  • 金元哲, 今野昂, 村上太一, 成島尚之, 大内千秋, “真空後熱処理を組み合わせたAr-5%COガスを利用したチタン材料の表面硬化処理法,” 日本金属学会誌., 72 [12] (2008) 1002-1009.
    [Y.Z. Kim, T. Konno, T. Murakami, T. Narushima and C. Ouchi “Surface hardening method for titanium materials using Ar-5%CO gas in combination with post heat treatment under vacuum,” J. Jpn. Inst. Met., 72 [12] (2008) 1002–1009.]
    doi: 10.2320/jinstmet.72.1002
  • 萩原幸司, 橘孝洋, 佐々木啓太, 吉田良行, 白川直樹, 長澤亨, 成島尚之, 中野貴由,
    “極低酸素分圧雰囲気下でのTi単結晶の帯溶融育成,” 日本金属学会誌., 72 [12] (2008) 928–934.
    [K. Hagihara, T. Tachibana, K. Sasaki, Y. Yoshida, N. Shirakawa, T. Nagasawa, T. Narushima and T. Nakano, “Fabrication of titanium single crystal by a floating zone method under extremely low oxygen partial pressure,” J. Jpn. Inst. Met., 72 [12] (2008) 928–934.]
    doi: 10.2320/jinstmet.72.928
  • 中川浩伸, 勝部朝之, 上田恭介, 栗原淳, 後藤孝, 成島尚之, 川村仁, “RFマグネトロンスパッタリング法を用いた吸収性薄層リン酸カルシウムコーテイングインプラントに関する実験的研究,” 日本顎顔面インプラント学会誌, 7 [1] (2008) 3–13.
    [H.Nakagawa, T.Katsube, K.Ueda, J.Kurihara, T.Goto, T.Narushima and H.Kawamura, “In Vivo Evaluation of Bioresorbable Calcium Phosphate Films Coated on Titanium Implant by RF Magnetron Sputtering,” Japanese Journal of Maxillo Facial Implants, 7 [1] (2008) 3–13.]
  • N. Fujita, R. Sahara, T. Narushima and C. Ouchi, “Austenitic grain growth behavior immediately after dynamic recrystallization in HSLA steels and austenitic stainless steel,” ISIJ Int., 48[10] (2008) 1419–1428.
    doi: 10.2355/isijinternational.48.1419
  • M. Sato, R. Tu, T. Goto, K. Ueda and T. Narushima, “Hydroxyapatite formation on Ca-P-O coating prepared by MOCVD,” Mater. Trans., 49 [8] (2008) 1848–1852.
    doi: 10.2320/matertrans.MRA2008097
  • 佐藤充孝, 塗溶, 後藤孝, 上田恭介, 成島尚之, “MOCVD法によるCa-Ti-OおよびCa-P-O系傾斜機能バイオセラミックス膜の合成,” 粉体および粉末冶金, 55 [5] (2008) 325-330.
    [M. Sato, R. Tu, T. Goto, K. Ueda and T. Narushima, “Preparation of Ca-Ti-O/Ca-P-O Functionally Graded Bio-ceramic Film by MOCVD,” Journal of the Japan Society of Powder and Powder Metallurgy, 55 [5] (2008) 325–330.]
    doi: 10.2497/jjspm.55.325
  • 成島尚之,上田恭介,後藤孝,勝部朝之,川村 仁,中川 浩伸,平 雅之, “ブラスト処理を施したTi-6Al-4V合金基板へのリン酸カルシウムコーティングと生体内外評価,” 粉体および粉末冶金, 55 [5] (2008) 318–324.
    [Takayuki Narushima, Kyosuke Ueda, Takashi Goto, Tomoyuki Katsube, Hiroshi Kawamura, Hironobu Nakagawa and Masayuki Taira, “Fabrication and Evaluation of Calcium Phosphate Coating Films on Blast-treated Ti-6Al-4V Alloy Substrate”, Journal of the Japan Society of Powder and Powder Metallurgy, 55 [5] (2008) 318–324.]
    doi: 10.2497/jjspm.55.318
  • T. Murakami, R. Sahara, D. Harako, M. Akiba, T. Narushima, and C. Ouchi , “The effect of solute elements on hardness and grain size in platinum based binary alloys,” Mater. Trans., 49 [3] (2008) 538–547.
    doi: 10.2320/matertrans.MRA2007265
  • S. Miyamoto, M.Watanabe, T. Narushima and Y. Iguchi, “Deoxidation of NiTi alloy melts using metallic barium,” Mater. Trans., 49 [2] (2008) 289–293.
    doi: 10.2320/matertrans.MRA2007219
  • Y.Z. Kim, T. Murakami, T. Narushima and C. Ouchi, “Evaluation of sliding wear resistant property of C. P. titanium and SP-700 titanium alloy surface-hardened by Ar-5%CO gas,” ISIJ Int., 48 [1] (2008), 89–98.
    doi:10.2355/isijinternational.48.89

2007年

  • B. Poorganji, T. Murakami, T. Narushima, C. Ouchiand T. Furuhara, “Effect of alloying elements on hot deformation of duplex titaniumalloys,” Ti-2007, Science and Technology, Proc. the 11th World Conference on Titanium (JIMIC-5), edited by M. Niinomi, S. Akiyama, M. Hagiwara, M. Ikeda and K. Maruyama, Kyoto, JIM, (2007), 535–538.
  • 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,” Ti-2007, Science and Technology, Proc. the 11th World Conference on Titanium (JIMIC-5), edited by M. Niinomi, S. Akiyama, M. Hagiwara, M. Ikeda and K. Maruyama, Kyoto, JIM, (2007), 1477–1480.
  • T. Narushima, K.Ueda, T. Kinami, H. Kimura, C. Ouchi and Y. Iguchi, “Fatigue properties of titanium wires for medical applications,” Ti-2007, Science and Technology, Proc. the 11th World Conference on Titanium (JIMIC-5), edited by M. Niinomi, S. Akiyama, M. Hagiwara, M. Ikeda and K. Maruyama, Kyoto, JIM, (2007), 1505–1508.
  • T. Murakami, K. Ohara, T. Narushima and C. Ouchi, “Development of a new method for manufacturing iron foam using gases generated by reduction of iron oxide,” Mater. Trans., 48 [11] (2007), 2937–2944.
    doi: 10.2320/matertrans.MRA2007127
  • M. Sato, R. Tu, T. Goto, K. Ueda and T. Narushima, “Hydroxyapatite formation on calcium phosphate coated titanium,” Mater.Sci.Forum, 561–565 (2007), 1513–1516.
    doi: 10.4028/www.scientific.net/MSF.561-565.1513
  • M. Sato, R. Tu, T. Goto, K. Ueda and T. Narushima, “Hydroxyapatite formation on MOCVD-CaTiO3coated Ti,” Key Eng.Mater., 352 (2007), 301–304.
    doi: 10.4028/0-87849-454-5.301
  • K. Ueda, T. Narushima, T. Katsube, H. Kawamura and T. Goto, “In Vitro evaluation of RF magnetron-sputtered calcium phosphate films on titanium, ” Key Eng.Mater., 352 (2007), 305–309.
    doi: 10.4028/0-87849-454-5.305
  • S. Hotta, Matsumoto, T. Murakami, T. Narushima and C. Ouchi, “Dynamic and static restoration behavior of pure lead and tin in the ambient temperature range,” Mater. Trans., 48 [10] (2007), 2665–2673.
    doi: 10.2320/matertrans.MRA2007078
  • K. Ueda, T. Narushima, T. Goto, M. Taira, and T. Katsube, “Fabrication of calcium phosphate films for coating on titanium substrates heated up to 773 K by RF magnetron sputtering and their evaluations,” Biomed. Mater., 2 (2007) S160–S166.
    doi: 10.1088/1748-6041/2/3/S14
  • T. Hirano, T. Murakami, T. Narushima and C. Ouchi. “Variations in the microstructure and hardness with solution treating and aging conditions in Newa+btitanium alloy Ti-4.5%Al-6%Nb-2%Fe-2%Mo,” ISIJ Int., 47 [7] (2007), 1042–1049.
    doi: 10.2355/isijinternational.47.1042
  • M. Sato, R.Tu, T. Goto, K. Ueda and T. Narushima, “Hydroxyapatite formation on CaTiO3film prepared by metal-organic chemical vapor deposition,” Mater. Trans., 48 [6] (2007), 1505–1510.
    doi: 10.2320/matertrans.MRA2007016
  • T. Hirano, T. Murakami, M. Taira, T. Narushima and C. Ouchi. “Alloy design and properties of new a+btitanium alloy with excellent cold workability, superplasticity and cytocompatibility,” ISIJ Int., 47 [5] (2007), 745–752.
    doi: 10.2355/isijinternational.47.745
  • K. Ueda, T. Narushima, T. Goto, T. Katsube, H. Nakagawa, H. Kawamura and M. Taira, “Evaluation of calcium phosphate coating films on titanium fabricated using RF magnetron sputtering,” Mater. Trans., 48 [3] (2007), 307–312.
    doi: 10.2320/matertrans.48.307
  • B. Poorganji, S.Hotta, T. Murakami, T. Narushima, Y. Iguchi and C. Ouchi, “The effect of small amounts of yttrium addition on static and under superplastic deformation condition grain growth in newly developed a+b type Ti-4.5Al-6Nb-2Mo-2Fe alloy,” Ad. Mater. Res., 15–17 (2007), 970–975.
    doi: 10.4028/www.scientific.net/AMR.15-17.970
  • 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,” Ad. Mater. Res., 15–17 (2007), 726–731.
    doi: 10.4028/www.scientific.net/AMR.15-17.726
  • T. Narushima, K.Ueda, T. Goto, T. Katsube, H. Kawamura, C. Ouchi and Y. Iguchi, “Calcium phosphate films coated on titanium by RF magnetron sputtering for medical applications,” Mater. Sci. Forum, 539-543 (2007), 551–556.
    doi: 10.4028/www.scientific.net/MSF.539-543.551

2006年

  • 佐藤充孝, 塗溶, 後藤孝, 上田恭介, 成島尚之, “MOCVD法による傾斜組成生体適合性膜の作製,” 傾斜機能材料論文集, 20 (2006), 109–114.
    [M. Sato, R Tu, T. Goto, K. Ueda and T. Narushima, “Preparation of graded biocompatible films by MOCVD,” Keisyakinouzairyo, 20 (2006), 109–114.]
  • T. Katsube, H. Nakagawa, T. Narushima and H. Kawamura, “In vivo evaluation of calcium phosphate films on titanium implant by RF magnetron sputtering,” Proceedings of XVIII International Congress of the European Association for Cranio-Maxillofacial Surgery, Medimond, (2006), 67–72.
  • M. Taira, K. Sasaki, S. Saitoh, T. Nezu, M. Sasaki, S. Kimura, K. Terasaki, K. Sera, T. Narushima and Y. Araki,“Accumulation of element Ti in macrophage-like RAW 264 cells cultured in mediumwith 1ppm Ti and effect on cell viability, SOD production and TNF-a secretion,” Dent. Mater. J., 25 [4] (2006), 726–732.
    doi:10.4012/dmj.25.726
  • K. Taneichi, T. Narushima, Y. Iguchi and C. Ouchi, “Oxidation or nitridation behavior of pure chromium and chromium alloys containing 10 mass% Ni or Fe in atmospheric heating,” Mater. Trans., 47 [10] (2006), 2540–2546.
    doi: 10.2320/matertrans.47.2540
  • Y.Z. Kim, T. Murakami, T. Narushima, Y. Iguchi and C. Ouchi, “Surface hardening treatment in use of CO gas and post-heat treatment in C.P. titanium and titanium alloys,” Solid State Phenomena, 118 (2006), 109–114.
    doi: 10.4028/3-908451-25-6.109
  • Y.Z. Kim, T. Murakami, T. Narushima, Y. Iguchi and C. Ouchi, “Surface hardening treatment for C.P. titanium and titanium alloys in use of Ar-5%CO gas,” ISIJ Int., 46 [9] (2006), 1329–1338.
    doi: 10.2355/isijinternational.46.1329
  • T. Narushima, K.Ueda, T. Goto, T. Katsube, H. Kawamura, C. Ouchi and Y. Iguchi, “Characterization of calcium phosphate films prepared by RF magnetron sputtering,” Mater. Res. Soc. Symp. Proc. 888 (2006), 101–106.
  • K. Taneichi, M. Taira, E. Sukedai, T. Narushima, Y. Iguchi and C. Ouchi, “Alloy design and property evaluation of new btype titanium alloy with excellent cold workability and biocompatibility,” ISIJ Int., 46 [2] (2006), 292–301.
    doi: 10.2355/isijinternational.46.292
  • 金元哲, 佐原亮二, 成島尚之, 井口泰孝, 大内千秋, “CO2ガスを利用したチタンおよびチタン合金の表面硬化処理,” 鉄と鋼, 92 [1] (2006), 1–9.
    [Y.-Z. Kim, R. Sahara, T. Narushima, Y. Iguchi and C. Ouchi, Surface hardening treatment for titanium and titanium alloys in use of CO2 gas, Tetsu-to-Hagané, 92 [1] (2006), 1–9.]
  • S. Hotta, K.Yamada, T. Murakami, T. Narushima, Y. Iguchi and C. Ouchi, “b grain refinement due to small amounts of yttrium addition in a+b type titanium alloy, SP-700,” ISIJ Int., 46 [1] (2006), 129–137.
    doi: 10.2355/isijinternational.46.129

2005年

  • K. Ueda, T.Narushima, T. Goto, T. Katsube, H. Kawamura, C. Ouchi and Y. Iguchi “Preferred orientation of calcium phosphate films prepared by RF magnetron sputtering,” Archives of BioCeramics Research Volume 5, (2005), pp.59–62.
  • T. Narushima, K.Ueda, T. Goto, H. Masumoto, T. Katsube, H. Kawamura, C. Ouchi and Y. Iguchi, “Preparation of calcium phosphate films by radiofrequency magnetron sputtering,” Mater. Trans., 46 [10] (2005), 2246–2252.
    doi: 10.2320/matertrans.46.2246
  • 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.
    doi: 10.2320/matertrans.46.2083
  • Y. Sugano, R.Sahara, T. Murakami, T. Narushima, Y. Iguchi and C. Ouchi, “Hydrothermal synthesis of zeolite A using blast furnace slag,” ISIJ Int., 45 [6] (2005), 937–945.
    doi: 10.2355/isijinternational.45.937
  • S. Hotta, T.Murakami, T. Narushima, Y. Iguchi and C. Ouchi, “Effects of dynamic recrystallization on g grain refinement and improvement of micro segregation of as cast austenite in 9%Ni steel,” ISIJ Int., 45 [3] (2005), 338–346.
    doi: 10.2355/isijinternational.45.338
  • K. Ueda, T.Narushima, C. Ouchi and Y. Iguchi, “Wear loss and elution of C.P.Ti and titanium alloys in simulated body fluids,” Mater. Sci. Forum, 475–479, (2005), 2333–2336.
    doi: 10.4028/www.scientific.net/MSF.475-479.2333

2004年

  • T. Narushima, K. Ueda, M. Yamashita, T. Murakami, C. Ouchi and Y. Iguchi, “Evaluation of fatigue property of titanium wires by rotating-bending testing in 1mass% lactic acid solution,” Proc. of 9th Annual Conference of the International FES Society, (2004), 416–418.
  • T. Nomura, N.Yamamoto, T. Narushima, Y. Iguchi and C. Ouchi, “Refinement of b grain size due to TiB or Y2O3 precipitates in titanium alloy,” Ti-2003, Science and Technology, Vol.II, edited by G. Lütjering and J. Albercht, DGM, Wiley-VCH, (2004), pp.1235–1242.
  • 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. Lütjering and J. Albercht, DGM, Wiley-VCH, (2004), pp.2115–2122.
  • 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.
    doi: 10.2320/matertrans.45.1306

2003年

  • 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.
  • M. Kitayama, T. Narushima, K. Tran, G. Gronsky, A.M. Glaeser, “Model studies of surfaces and interfaces in ceramics,” Key. Eng. Mater., 247 (2003), 341–347.
    doi: 10.4028/www.scientific.net/KEM.247.341
  • N. Fujita, T. Narushima, Y. Iguchi and C.Ouchi, “Grain refinement of as cast austenite by dynamic recrystallizationin HSLA steels,” ISIJ Int., 43 [7] (2003), 1063–1072.
    doi:10.2355/isijinternational.43.1063
  • 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.
    doi: 10.4028/www.scientific.net/MSF.426-432.1095
  • 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.
    doi: 10.2320/matertrans.44.401
  • T. Goto, G. He, T. Narushima and Y. Iguchi, “Application of Sr b-alumina solid electrolyte to a CO2gas sensor,” Solid State Ionics, 156 [3–4] (2003), 329–336.
    doi: 10.1016/S0167-2738(02)00681-1

2002年

  • 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.
    doi: 10.2320/matertrans.43.2120
  • 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.
    doi: 10.1111/j.1151-2916.2002.tb00402.x
  • 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.

2001年

  • K. Tajima, T. Ogasawara, T. Narushima, C. Ouchi and Y. Iguchi, “Behavior of oxygen in Ga-As meltswith the range of Ascontent up to 5mass% equilibrated with B2O3 flux,” Mater. Trans., 42 [11] (2001), 2434–2439.
    doi: 10.2320/matertrans.42.2434
  • Y. Iguchi, T. Narushima and C. Izumi,“Calorimetric study on hydration of CaO-based oxides,J. Alloys Comp., 321 [2] (2001), 276–281.
    doi: 10.1016/S0925-8388(01)00970-7
  • 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.
    doi: 10.1111/j.1151-2916.2001.tb00769.x

2000年

  • 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.
  • 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.
    doi: 10.1111/j.1151-2916.2000.tb01592.x
  • 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 evolutionrates,” J. Am. Ceram. Soc., 83 [10] (2000), 2561–2571.
    doi: 10.1111/j.1151-2916.2000.tb01591.x
  • 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.
  • 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.
  • Y. Iguchi, C. Ouchi, T. Narushima, M. Watanabe, T. Kinami, T. Nishikawa, N. Hoshimiya and Y. Handa, “Development of implanted bio-materials and application to FES electrodes as the interface between stimulator and nerve,” Proceedings of 5th Annual Conference of the International Functional Stimulation Society, (2000), pp.253–256.
  • 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.
    doi: 10.2320/matertrans1989.41.714

1999年

  • G. He, T. Goto, T. Narushima and Y. Iguchi, “High temperature CO2gas sensor using Sr b-alumina,”Proceedings of the 4 th East Asian Conference on Chemical Sensors, Ed. by Ping Ping Tsai, ITRI, Hsinchu, Taiwan, (1999), pp. 183–186.
  • G. He, T. Goto, T. Narushima and Y. Iguchi, “Electrical conductivity and ionic transference number of Sr and Ba b-aluminas,” Solid State Ionics, 124 (1999), 119–124.
    doi: 10.1016/S0167-2738(99)00128-9
  • 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.
  • G. He, T. Goto,T. Narushimaand Y. Iguchi, “Electrical conductivity of alkaline-earth metal b-aluminas and their application to a CO2 gas sensor,” Solid State Ionics, 121 (1999), 313–319.
    doi: 10.1016/S0167-2738(99)00063-6

1998年

  • 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.
  • G. He, T. Narushima, T. Goto, T. Hirai and Y. Iguchi, “Synthesis and electrical property measurements of Ba b-alumina in a BaO-MgO-Al2O3system,” J. Ceram. Soc. Jpn., 106 [11] (1998), 1048–1050.
  • 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.
    doi: 10.2320/matertrans1989.39.819

1997年

  • 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.
    doi: 10.2320/matertrans1989.38.990
  • H. Gang, Y. Hayasaka, T. Narushima, T. Goto, T. Hirai and Y. Iguchi, “Preparation of Sr b-alumina ionic conductors and their a.c. impedance measurements,” J. Ceram. Soc. Jpn., 105 [12] (1997), 1067–1071.
  • Y. Iguchi, M. Kinoshita, Y. Hino and T. Narushima, “Oxygen distribution between molten B2O3flux and indium or gallium,” Proc. of 5th International Conference on Molten Slags, Fluxes and Salts, (1997), 317–320.

1996年

  • 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.
  • Y. Iguchi, M. Kinoshita, D. Sajuti, S. Yoshida, Y. Hino and T. Narushima, “Oxygen distribution between molten III group metals and B2O3flux,” Proceedings of International Symposium on Metallurgy and Materials of Non-ferrous Metals and Alloys, Ed.H. Jicheng et al. (1996), pp. 45–49.
  • Y. Muraki, T. Narushima and Y. Iguchi, “Determination of free lime contents in slags by solution calorimetry,” ISIJ Int., 36[12] (1996), S243–S246.
    doi:10.2355/isijinternational.36.Suppl_S243
  • 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.
  • 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 Eng. Mater., 113 (1996), 99–104.
    doi: 10.4028/www.scientific.net/KEM.113.99

1995年

  • 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, Inter. Academic Pub., (1995), pp. 401–406.
  • T. Narushima, K. Matsuzawa, M. Mamiya and Y. Iguchi, “Oxygen solubility in liquidSi-X (X=Sb, B, P and As) alloys,” Mater. Trans. JIM., 36[6] (1995), 763–769.
    doi: 10.2320/matertrans1989.36.763
  • 成島尚之, 菊池直樹, 丸山誠, 嵐治夫, 仁科雄一郎, 井口泰孝, “ラマン分光法を用いた高温酸化皮膜の”その場”観察装置の開発,” 鉄と鋼, 81[6] (1995), 607–612.
    [T. Narushima, N. Kikuchi, M. Maruyama, H. Arashi, Y. Nishina and Y. Iguchi, “Development of “In-situ” observation system for oxide films formed during thermal oxidation using Raman spectroscopy,” Tetsu-to-Hagané, 81[6] (1995), 607–612.]
  • 成島尚之, ジュスマン サユティ, 佐伯勝之, 吉田真哉, 井口泰孝, “溶融ガリウムおよび溶融インジウムの酸素溶解度,” 日本金属学会誌, 59[1] (1995), 37–43.
    [T. Narushima, D. Sajuti, K. Saeki, S. Yoshida and Y. Iguchi, “Oxygen solubility in liquid gallium and indium,” J. Jpn. Inst. Met., 59[1] (1995), 37–43.]

1994年

  • T. Goto, T. Narushima, Y. Iguchi and T. Hirai, “High-temperature passive/active oxidation for CVD SiC and Si3N4,” Ceramic Transactions vol.42, TheAm. Ceram. Soc., (1994), pp. 307–318.
  • T. Narushima, J. Hagiwara, N. Kikuchi, Y. Iguchi, T. Goto and T. Hirai, “High-temperature active oxidation of CVD-Si3N4in N2-O2atmosphere,” 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.
  • T. Narushima, N. Ueda, M. Takeuchi, F. Ishii and Y. Iguchi, “Nitrogen solubility in liquid silicon,” Mater. Trans. JIM, 35[11] (1994), 821–826.
    doi: 10.2320/matertrans1989.35.821
  • 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.
    doi: 10.1111/j.1151-2916.1994.tb04525.x
  • 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-O2and Ar-O2atmospheres,” J. Am. Ceram. Soc., 77[9] (1994), 2369–2375.
  • T. Narushima, K. Matsuzawa, Y. Mukai and Y. Iguchi, “Oxygen solubility in liquid silicon,” Mater. Trans. JIM, 35[8] (1994), 522–528.
    doi: 10.2320/matertrans1989.35.522
  • 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. Ed. by K.G.Nickel, Kluwer Academic Publishers, Netherlands, (1994), pp. 165–176.
  • 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.
    doi:10.1016/0022-0248(94)90188-0
  • 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-CO2atmosphere,” J. Am. Ceram. Soc., 77 [4] (1994), 1079–1082.
    doi: 10.1111/j.1151-2916.1994.tb07273.x

1993年

  • D. Sajuti, M. Yano, T. Narushima and Y. Iguchi, “Phase diagrams of the Ga2O3-B2O3and In2O3-B2O3binary systems,” Mater. Trans. JIM, 34 [12] (1993), 1195–1199.
    doi: 10.2320/matertrans1989.34.1195
  • Y. Iguchi and T. Narushima, “Solubility of oxygen, nitrogen and carbon in liquid silicon,” Proceedings of the First International Conference on Processing Materials for Properties, TMS, (1993), pp.437–440.
  • T. Narushima, T. Goto, Y. Yokoyama, Y. Iguchi and T. Hirai, “High-temperature active oxidation of chemically vapor-deposited silicon carbide in CO-CO2atmosphere,” J. Am. Ceram. Soc., 76 [10] (1993), 2521–2524.
    doi: 10.1111/j.1151-2916.1993.tb03975.x
  • 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.
    doi: 10.1111/j.1151-2916.1993.tb05333.x

1992年

  • D. Sajuti, M. Yano, T. Narushima and Y. Iguchi, “Solubility of Ga2O3or In2O3in liquid B2O3,” Proceedings of 4th International Conference on Molten Slags and Fluxes, ISIJ, (1992), pp. 614–619.
  • T. Narushima, Y. Iguchi, T. Goto, T. Hirai and Y. Yokoyama, “High-temperature active oxidation of CVD-Si3N4in Ar-O2atmosphere,” Solid State Ionics, 53-56, (1992), 265–269.
    doi:10.1016/0167-2738(92)90389-7
  • T. Narushima, T. Goto, Y. Iguchi and T. Hirai, “High-temperature oxidation of CVD-SiC in CO-CO2atmosphere,” High Temperature Corrosion of Advanced Materials and Protective Coatings, Ed. by Y.Saito, B.Önay and T.Maruyama. Elsevier, Amsterdam, (1992), pp. 345–350.

1991年

  • T. Narushima, T. Goto, Y. Iguchi and T. Hirai, “High-temperature active oxidation of chemically vapor-deposited silicon carbide in an Ar-O2atmosphere,” J. Am. Ceram. Soc., 74 [10] (1991), 2583–2586.
    doi: 10.1111/j.1151-2916.1991.tb06803.x

1990年

  • 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.
    doi: 10.1111/j.1151-2916.1990.tb04261.x

1989年

  • 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.
    doi: 10.1111/j.1151-2916.1989.tb07658.x
  • 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. Ed. by M. Doyama, S. Somiya and R.P.H. Chang. Materials Research Society, Pittsburgh, PA, (1989), pp. 295–300.

国際会議プロシーディング

解説

2020年

上田恭介, 上田隆統志, 成島尚之, “光触媒活性による細菌の不活化機序の理解に基づくチタン系生体材料の抗菌機能化:酸化チタンコーティングの可視光応答化,” まてりあ, 59 (2020) 612–617.
[K. Ueda, T. Ueda and T. Narushima, “Antibacterial Functionalization of Ti-based Biomaterials Based on the Understanding of the Inactivation Mechanisms of Bacteria via Photocatalytic Activity of Titanium Oxide: Visible-light Responsive Reaction of Titanium Oxide Coating,” Materia Japan, 59, (2020) 612–617.]

成島尚之, 上田恭介, 佐原亮二, S.K. Bhattacharya, “Si添加Ti–6Al–4V合金の高温酸化に関する実験的・計算材料学的研究,” チタン, 68 (2020) 328–335.
[T. Narushima, K. Ueda, R. Sahara and S.K. Bhattacharya, “Experimental and theoretical oxidation study of Ti–6Al–4V alloys with added Si,” Titanium Japan, 68 (2020) 328–335.]

T. Narushima and Y. Sugizaki, “Recent activities of titanium research and development in Japan,” MATEC Web of Conferences, 321 (2020) 01004.
Proceedings of the 14th World Conference on Titanium (Ti-2019), (2020).
doi: 10.1051/matecconf/202032101004

上田恭介, 成島尚之, “非晶質リン酸カルシウムの生体内溶解性制御とAg担体として利用したチタンへの抗菌性付与,” バイオマテリアル–生体材料, 38 [4] (2020), 242–247.
[K. Ueda and T. Narushima, “Controlling bio-dissolution of amorphous calcium phosphate and applying antibacterial activity to Ti as a carrier of Ag,” J. Jpn. Soc. Biomat., 38 [4] (2020) 242–247.]

成島尚之, 上田恭介, 阿部来紀, “水素プラズマを利用したチタン融体からの酸素除去,” 軽金属, 70 [7] (2020) 316–317.
[T, Narushima, K. Ueda and R. Abe, “Oxygen removal from titanium melt using hydrogen plasma,” J. Jpn. Inst. Light Metals, 70 [7] (2020) 316–317.]

上田恭介, 上田隆統志, 成島尚之, “熱酸化により作製したチタニアコーティング膜の可視光応答光触媒活性による抗菌機能化,” セラミックス, 55 (2020) 146–149.
[K. Ueda, T. Ueda and T. Narushima, “Formation of titania coating layer on Ti-Au alloy by thermal oxidation and its antibacterial property through photocatalytic activity under visible-light irradiation,”
JCS-Japan, 55 (2020) 146–149.]

成島尚之, “金属の表面処理で生体用素材を多機能化,” 現代化学, No. 587 (2020) 50–53.
[T. Narushima, “Multifunctionalization through surface treatment of metallic biomaterials,” Chemistry Today, No. 587 (2020) 50–53.]

2019年

成島尚之, “金属系バイオマテリアルの表面処理,” 特殊鋼, 68 [5] (2019), 45–48.
[T. Narushima, “Surface treatment of metallic biomaterials,” The special steel, 68 [5] (2019), 45–48.]

2018年

上田恭介,上田隆統志,佐藤直生,成島尚之, “チタンへの骨適合性コーティング,” 表面技術, 69 [8] (2018), 341–345.
[K. Ueda, T. Ueda, N. Sato, T. Narushima, “Coatings for improving bone compatibility of titanium,” J. Surf. Finish. Soc. Jpn., 69 [8] (2018), 341–345.]

成島尚之, “チタンの高温酸化,” 軽金属, 68 [7] (2018), 354–365.
[T. Narushima, “High-temperature oxidation of titanium and its alloys,” J. Jpn. Inst. Light Metals, 68 [7] (2018), 354–365.]

2017年

成島尚之, “チタンの生体機能化表面処理,” チタン, 65 [4] (2017), 198–204. ([4] 36–42)
[T. Narushima, “Surface treatment of Ti and its alloys for biofunctionalization,” Titanium Japan, 65 [4] (2017), 292–298. ([4] 36–42)]

上田恭介, 成島尚之, “抗菌性をもつ生体材料開発,” 炎症と免疫, 25 [2] (2017) 110–117.
[K. Ueda and T. Narushima, “Development of antibacterial biomaterials” Inflammation & Immunity, 25 [2] (2017), 110–117.]

成島尚之, “表面処理の立場からの生体・福祉材料の変遷と展望,” まてりあ, 56 [3] (2017), 215–219.
[T. Narushima: “Transition and Prospect of Biomedical and HealthcareMaterials from the Viewpoint of Surface Treatment,” Materia Japan, 56 [3] (2017), 215–219.]

doi:10.2320/materia.56.215

2016年

T. Narushima, Alfirano and K. Ueda: “NiTi and Co-Cr alloys used in biomedical stents,” Proceedings of National Seminar of Metallurgy and Materials IX (SENAMM IX), Sultan Ageng Tirtayasa University, Cilegon, Indonesia, (2016), 7–16.

新家光雄, 池田勝彦, 小林郁夫, 成島尚之, “チタンおよびチタン合金,” 軽金属, 66 [8] (2016), 468–470.
[M. Niinomi, M. Ikeda, E. Kobayashi, and T. Narushima, “Titanium and its alloys,” J. Jpn. Inst. Light Metals, 66 [8] (2016), 468–470.]

2015年

A. Obata, H. Maeda, K. Ueda, T.Narushima and T. Kasuga, “The role of niobium ions in calcium phosphate invert glasses for bone regeneration,” Phosphorus Research Bulletin, 30 (2015) 30–34.
doi: 10.3363/prb.30.30

成島尚之, 超高齢社会でのQOL向上に貢献するバイオマテリアル研究, Kawaijuku Guideline 2015, [11] (2015), 68–69.

成島尚之, “金属系バイオマテリアルにおける表面改質,” メカニカルサーフェス・テック, No. 028 (2015) 20–22.

新家光雄, 池田勝彦, 小林郁夫, 成島尚之, “チタンおよびチタン合金,” 軽金属, 65 [8] (2015), 377–380.
[M. Niinomi, M. Ikeda, E. Kobayashi, and T. Narushima, “Titanium and its alloys,” J. Jpn. Inst. Light Metals, 65 [8] (2015), 377–380.]

2014年

成島尚之, 上田恭介, 佐渡翔太, “チタンの熱酸化を利用した生体用表面処理,” 材料と環境, 63 [5] (2014) 295–300.
[Takayuki Narushima, Kyosuke Ueda and Shota Sado, “Surface treatment of titanium using thermal oxidation for biomedical applications,” Zairyo-to-Kankyo, 63 (2014) 295–300.]

上田恭介、成島尚之, “リン酸カルシウムコーティングによる骨組織伝導,” 骨形態計測学会誌, 24 (2014) 23–31.
[K. Ueda and T. Narushima, “Osseoconduction by calcium phosphate coating” Journal of Japanese Society of Bone Morphometry, 24 (2014) 23–31.]

2013年

成島尚之, 上田恭介, 佐渡翔太, “セラミックスコーティングによる金属系バイオマテリアル表面の高機能化,” 機能材料, 33 [9] (2013), 33–39.
[Takayuki Narushima, Kyosuke Ueda and Shota Sado, “Fabrication of functional surface on metallic biomaterials using ceramic coating,” Function & Materials, 33 [9] (2013), 33–39.]

成島尚之, “チタンの軽元素メタラジー,” チタン, 61 [2] (2013), 126–131.
[T. Narushima, “Metallurgy of light elements existing with titanium,” Titanium Japan, 61 [2] (2013), 126–131.]

T. Narushima, S. Mineta, Y. Kurihara and K. Ueda, “Precipitates in biomedical Co-Cr alloys,” JOM: The Member Journal of The Minerals, Metals & Materials Society, 65 (2013), 489–504. DOI:
doi: 10.1007/s11837-013-0567-6.

2011年

新家光雄, 池田勝彦, 成島尚之, “チタンおよびチタン合金,” 軽金属, 61 [11] (2011), 673–677.
[M. Niinomi, M. Ikeda, and T. Narushima, “Titanium and its alloys,” J. Jpn. Inst. Light Metals, 61 [11] (2011), 673–677.]

2010年

T. Narushima, “Research and development of metallic biomaterials in Japan,” Proceeding: 4th NATIONAL SEMINAR of METALLURGY and MATERIAL, Cilegon, Indonesia, July 14-15, (2010), 11–24.

2009年

成島尚之, “新しい用途展開(Ⅳ)生体医療用途” 第61回白石記念講座「ユビキタス時代に向けたチタンの元素戦略」, 日本鉄鋼協会, (2009), 125–142.
[T. Narushima, “New market opportunity (IV): biomedical application,” The 61st Shiraishi Memorial Lecture, Strategies for the Highly Efficient Use of Titanium toward the Ubiquitous Ages and Titanium’s New Market Opportunities, ISIJ, (2009), 125–142.]

2008年

成島尚之, “骨適合性向上を目的としたチタン材料の表面処理,” 軽金属, 58 [11] (2008), 577–582.
[T. Narushima, Surface modification for improving biocompatibility of titanium materials with bone, J. Jpn. Inst. Light Metals, 58 [11] (2008), 577–582.]

doi: 10.2464/jilm.58.577

2007年

成島尚之, “表面処理:金属バイオマテリアルの表面形態制御と表面組成・相制御,” バイオマテリアル–生体材料, 25 [4] (2007), 252–260.
[T. Narushima, Surface treatment: Surface morphology and composition/phase control in metallic biomaterials, J. Jpn. Soc. Biomat. 25 [4] (2007), 252–260.

成島尚之, “生体用チタン及びチタン合金,” 金属, 77 [2] (2007), 122–127.
[T. Narushima, Titanium and its alloys for medical applications, Kinzoku, Materials Science & Technology]

2005年

成島尚之, “生体材料としてのチタンおよびチタン合金,” 軽金属, 55 [11] (2005), 561–565.
[T. Narushima, Titanium and its alloys as biomaterials, J. Jpn. Inst. Light Metals]
doi: 10.2464/jilm.55.561

成島尚之, “特集 金属材料を知る チタン、チタン合金,” バイオマテリアル–生体材料, 23 [2] (2005), 86–95.
[T. Narushima, To know metals: Titanium and its alloys]

3. M. Niinomi, T. Hanawa and T. Narushima, “Japanese research and development on metallic biomedical, dental, and healthcare materials,” JOM: The Member Journal of
The Minerals, Metals & Materials Society, 57 [4] (2005), 18–24.
doi: 10.1007/s11837-005-0076-3

1999年

井口泰孝, 成島尚之, 星宮望, 半田康延, “超高純度精製技術に基づいた機能的電気刺激用生体埋込みステンレス鋼製電極の開発,” ふぇらむ, 4 [11] (1999), 737–740.
[Y. Iguchi, T. Narushima, N. Hoshimiya and Y. Handa, “Development of the implanted stainless steel electrode for functional electrical stimulation based on ultra clean refining processes,” Bull. ISIJ, 4 [11] (1999), 737–740.

1997年

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.
doi: 10.2320/matertrans1989.38.821

著書

2020年

成島尚之, 上田恭介, 廣瀬祐介,
“α+β型Ti-V-OおよびTi-Nb-O系合金の開発と評価,”
チタンの準安定相・析出相研究部会報告書, 軽金属学会, (2020), pp. 10–19.
ISBN: 978-4-909160-32-4
[T. Narushima, K. Ueda, Y. Hirose,
“Development and evaluation of α+β type Ti-V-O and Ti-Nb-O alloys”]

2019年

T. Narushima,
“Chapter 19 New generation metallic biomaterials,”
in Metals for biomedical devices, Second Edition, Part IV Specific applications of metals for biomedical devices, Ed. by M. Niinomi, Woodhead Publishing Limited, Cambridge, UK, (2019), pp. 495–521.
Paperback ISBN: 9780081026663
eBook ISBN: 9780081026670

上田恭介, 佐藤直生, 成島尚之,
“第3章 リン酸カルシウムコーティングやガス法によるチタン表面改質,”
有機/無機材料の表面処理・改質による生体適合性付与、シーエムシー出版, (2019) pp. 90–100.
ISBN978-4-7813-1415-0 C3047
[K. Ueda, N. Sato and T. Narushima, “Surface modification of titanium using calcium phosphate coating and gas process,” Addition of Biocompatibility to Inorganic/Organic Materials by Surface Treatment and Modification, CMC Publishing Co.,Ltd., (2019) pp. 90–100.]

2016年

成島尚之: “2.5複合材料”, “3.2.6金属の表面と改質”, バイオマテリアル:その基礎と先端研究への展開、岡野光夫、田畑泰彦、塙隆夫、東京化学同人、監修 岡野光夫、pp. 84-87, pp. 168-172, (2016).
ISBN-13: 978-4807908677

2015年

成島尚之、上田恭介、上田隆統志、佐渡翔太: “セラミックコーティングによる金属表面処理”, 歯科再生・修復医療と材料, シーエムシー出版, (2015) pp. 175–185.
[T. Narushima, K. Ueda, T. Ueda and S. Sado, “Surface modification of Metals using ceramic coating,” In Dental Restorative Materials and Regenerative Medicine, CMC Pub. Co., Ltd, (2015) pp. 175–185.]
ISBN-13: 978-4-7813-1084-8

M. Hirohashi, K. Ueda, T. Wada, T. Narushima and H. Kato: “Chapter 8: Surface improvement for biocompatibility of biomedical Ti alloy by dealloying in metallic melt”, In Advances in Metallic Biomaterials: Processing and Applications, Springer Series in Biomaterials Science and Engineering 4, Ed. by M. Niinomi, T. Narushima, M. Nakai, Springer, (2015) pp. 153–179.
doi: 10.1007/978-3-662-46842-5_8
ISBN-13: 978-3-662-46841-8

T. Narushima, K. Ueda and Alfirano: “Chapter 7: Co-Cr alloys as effective metallic biomaterials,” In Advances in Metallic Biomaterials: Tissues, Materials and Biological Reactions, Springer Series in Biomaterials
Science and Engineering 3, Ed. by M. Niinomi, T. Narushima, M. Nakai, Springer, (2015) pp. 157–178.
doi: 10.1007/978-3-662-46836-4_7
ISBN-13: 978-3-662-46835-7

2014年

成島尚之, 中野貴由 編, バイオマテリアル研究の最前線, (公)日本金属学会, (2014), pp. 7–8, pp. 77–78, pp. 101–104, pp. 167–168.
ISBN978-4-88903-076-1

2013年

成島尚之, 未来型人工関節を目指して, (5章人工関節に利用される材料の現在と未来、5-1医療用金属材料)5-1-2 医療用金属材料の種類と特性, 日本医学館, 2013, pp. 163–169.

2012年

T. Narushima and K. Ueda, “Chapter 24 Calcium phosphate coating on titanium by RF magnetron sputtering,” in Technological Advancements in Biomedicine for Healthcare Applications, Ed. by Jinlong Wu, Hershey, PA, IGI Global, (2012), pp. 223–233.

2011年

T. Goto, T. Narushima and K. Ueda, “Chapter 7 Bio-ceramic coating on titanium by physical and chemical vapor deposition,” in Biological and Biomedical Coatings Handbook: Processing and Characterization (Advances in Materials Science and Engineering), Ed. by Sam Zhang, CRC Press, Boca Raton, FL, (2011), pp. 299–332.

2010年

成島尚之, バイオマテリアルの基礎, 第1章金属系バイオマテリアル, 1-2-3 チタンとチタン合金, 1-5 表面処理, 日本バイオマテリアル学会監修, 日本医学館, (2010), pp. 17–22, pp. 48–53
[T. Narushima, “Titanium and its alloys,” and “Surface treatments,” in Fundamentals of biomaterials for interdisciplinary integration, Ed. by K. Ishihara, T. Hanawa and M. Maeda, Nihon Igakukan, (2010), pp. 17–22, and pp. 48–53.]

T. Narushima, “Chapter 15 New generation metallic biomaterials,” in Metals for biomedical devices, Part IV Specific applications of metals for biomedical devices, Ed. by M. Niinomi, Woodhead Publishing Limited, Cambridge, UK, (2010), pp. 355–378.

成島尚之, 金属材料の加工と組織, 第5章加工による材料の特性向上と機能発現例, 5.4チタン基合金 5.4.3α+β型チタン合金, 共立出版, 東京, (2010), pp. 159-161.
[T. Narushima, “α+β type titanium alloys,” in Forming and Microstructure of Metals, Edited by T. Furuhara et al., Kyoritsu Shuppan, Tokyo, (2010), pp. 159–161.]

成島尚之, 医療用金属材料概論, 第4章医療用金属材料 4.1ステンレス鋼, 第4章医療用金属材料 4.3チタン・チタン合金, 第5章表面処理・多孔質化 5.2ドライプロセス, 塙隆夫編, (社)日本金属学会, (2010), pp. 74-84, pp. 92-101, pp. 153-166.
[T. Narushima, “Stainless steels,” “Titanium and its alloys,” and “Surface modification and porous treatment,” in Metals for Medicine, Ed. by T. Hanawa, JIM, (2010), pp. 74–84, pp. 92–101, and pp. 153–166.]

2009年

成島尚之, チタンの基礎・加工と最新応用技術, 第5編 第4章 表面処理, シーエムシー出版, 東京, (2009), pp. 108-121.
[T. Narushima, “Surface treatments,” in Basic Materials Science, Manufacturing and Newly Advanced Technologies of Titanium and its Alloys, Ed. by M. Niinomi, CMC, Tokyo, (2009), pp. 108–121.]

1996年

成島尚之, 実験材料科学 ニューマテリアル開発の基礎、東北大学マテリアル・開発系編
内田老鶴圃 (1996), pp. 9–12, pp. 181–187.

東北大学大学院工学研究科
材料システム工学専攻

生体材料システム学講座
医用材料工学


成島研究室

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Graduate School of Engineering, Tohoku University

Department of Materials Processing

Biomedical Materials,
Narushima Laboratory

6-6-02 Aza Aoba, Aramaki, Aoba-ku, Sendai 980-8579,Japan

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