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機械設計学研究室

木之下博KINOSHITA, Hiroshi


講義

基本機械システム製図
CAD
物理学基礎1(力学)
振動工学

研究

に関する研究


潤滑性

・カーボンナノ材料を用いたカーボンファイバー複合材料の機能強化 (ANCS)
・アドバンスドナノカーボン材料 産業育成・イニシアティブ (ANC)
・カーボンナノチューブ薄膜の成膜
・カーボンナノチューブ薄膜を用いたマイクロ流路の作製
・超熱原子状酸素によるカーボンナノ材料への超撥水性・超親水性付与
・高密度カーボンナノ材料含有無電解ニッケルめっき複合膜の生成とトライボロジー特性

・酸化グラフェンの水分散液のトライボロジー
・カーボンナノチューブ薄膜のマイクロ・ミリトライボロジー特性
・カーボンナノチューブ薄膜・他材料の微小荷重・微小振動摩擦
・カーボンナノチューブ薄膜の微小マイクロ電気接点への応用
・無潤滑で低摩擦・低摩耗な生体外皮(Sandfish)のトライボロジーメカニズム解明

・低地球宇宙軌道の超熱原子状酸素による摩擦材料の劣化とトライボロジー特性に与える
・シリコン系コンタミネーションの再付着によるトライボロジーへの影響

論文(第一著者と主な論文)

  • Precious Metal Electroplating to Carbon Nanotube Films and Their Contact Electrical Resistance Performance, Y. Yukiyoshi, Y. Yokoi, *H. Kinoshita, and Masahiro Fujii, Journal of Advanced Mechanical Design, Systems, and Manufacturing, (2016), in press. .
  • Hydrosilane-Assisted Formation of Metal Nanoparticles on Graphene Oxide, A. Saito, H. Kinoshita, K. Shimizu, and *Y. Nishina, Tribology Online, Bulletin of the Chemical Society of Japan, vol. 89, no.1, p. 67?73(2016), .
  • Investigations on Tribological Mechanisms of Graphene Oxide and Oxidized Wood-Derived Nanocarbons as Water-Based Lubricating Additives, *H. Kinoshita, and Y. Nishina, Tribology Online, vol. 11, no. 2, p.235?241 (2016).
  • Tribological properties of diamond nanoparticle additive in water under a lubrication between steel plate and tungsten carbide ball,Hiroshi Kinoshita,A. A. Alias, *H. Kinoshita, and M. Fujii, Journal of Advanced Mechanical Design, Systems, and Manufacturing, vol. 9, no.1, Paper No.14?00401.(2015) .  
  • Anti-wear effect of graphene oxide in lubrication by fluorine-containing ionic liquid for steel, *Hiroshi Kinoshita, Masahiro Kondo, Yuta Nishina, Masahiro Fujii, Tribology Online, vol.10, no.1, p.91-95 (2015).
  • Tribological properties of diamond nanoparticle additivein water under a lubrication between steel plate and tungsten carbide ball, Aidil Azli ALIAS, *Hiroshi KINOSHITA, and Masahiro FUJII, Journal of Advanced Mechanical Design, Systems, and Manufacturing, Vol.9, No.1, Paper No.14-00401(2015).
  • サンドフィッシュの鱗の微小荷重でのトライボロジー特性(第2報)― mN 荷重のトライボロジー特性 ―, *木之下 博,政安 亮祐,藤井 正浩, トライボロジスト, 第59巻, 第9号, p.577?585(2014) .
  • Facile preparation of Pd nanoparticles supported on single-layer graphene oxide and application for Suzuki-Miyaura cross-coupling reaction, Shun-ichi Yamamoto, *Hiroshi Kinoshita, Hideki Hashimoto and Yuta Nishina, Nanoscale, Vol.6, pp.6501-6505 (2014).
  • Tribological properties of monolayer graphene oxide sheets as water-based lubricant additives, *Hiroshi Kinoshita,Yuta Nishina, Aidil Azli Alias, Masahiro Fujii, Carbon, Vol. 66, pp. 720-723 (2014).
  • サンドフィッシュの鱗の微小荷重でのトライボロジー特性(第1報)― 微細構造観察とμN 荷重のトライボロジー特性 ―, *木之下 博,政安 亮祐,藤井 正浩, トライボロジスト ,第58巻, 第11号, pp.832-840(2013) .
  • 希土類酸化物薄膜の新規な創製法の確立とそのトライボロジー特性(第3報)―スカンジウム酸化物薄膜,窒化物薄膜,酸化物/窒化物複合薄膜―, *木之下博,永井和広,原田将伍,大前伸夫, トライボロジスト ,vol. 58, No3, pp.179-186 (2013).
  • Reducing the High Frictions on Carbon Nanotube Films by Applying Oscillating Motions under Micronewton Loads, *H. Kinoshita, M. Kageyama, A.A. Alias, M. Fujii, Tribology Online, Vol. 7, No. 4 pp.213-217 (2012).
  • Frictional properties of carbon nanotube films with a load range from micronewton to millinewton using mm size balls, *H. Kinoshita, T. Nakayama, T. Sumitani, K. Takeshita, M. Seki, M. Fujii, and N. Ohmae, Tribology Online, Vol. 8 (2012) No. 1 ITC Hiroshima 2011 Special issue, Part II p. 97-103.
  • Synthesis of TiN thin film on diamond surface for ferrous metal contacts by a new atom beam method, *H. Kinoshita, S. Yamamoto, H. Yatani, T. Nakai and N. Ohmae, Applied Surface Science, Volume 258, Issue 7, p. 3002-3006 (2012).
  • Superhydrophilicity on nano-rough carbon surfaces achieved by hyperthermal oxygen-atom beam exposure, *H. Kinoshita,T. Nakayama,N. Matsumoto,N. Ohmae, Carbon, Vol. 49, Issue 10, pp. 3388-3391 (2011).
  • Bonding of a Carbon Nanotube Film to a Au Film at Low Temperature and Contact Resistance of the Film under Micronewton Loads, *H. Kinoshita, Y. Isono and N. Ohmae, Tribology Online, Vol. 6, No. 4 pp.189-192 (2011).
  • Superhydrophobic/superhydrophilic micropatterning on a carbon nanotube film using a laser plasma-type hyperthermal atom beam facility, *H. Kinoshita, A. Ogasaharaa, Y. Fukudaa and N. Ohmae, Carbon, Vol. 48, Issue 15, pp.4403-4408 (2010).
  • Influence of silicon contamination on tribology in low earth orbit, *H. Kinoshita, Y. Simanaka, Y. Matsuura, N. Ohmae, Acta Astronautica, Vol. 66, pp.1320?1324 (2010).
  • Development of microreactors made of vertically aligned carbon nanotube films, *H. Kinoshita, A. Yamakawa, N. Ohmae, Carbon, Vol. 47, Issue 14, pp. 3374-3377 (2009).
  • Fabrication of fullerene nanoring on an oxidized HOPG surface, N. Matsumoto, H. Kinoshita, *N. Ohmae, Diamond and Related Materials, Vol.18, Issues 2-3, pp. 399-402 (2009).
  • A modification of the laser detonation-type hyperthermal oxygen atom beam source for a long-term operation,* H. Kinoshita, S. Yamamoto, H. Yatani, N. Ohmae, Review of Scientific Instruments, Vol. 79, Issue: 7, Article number 073109 (2008).
  • Interactive Strength between C60 Thin Film and Si(001) and Its Influence on Nano-Scaled Tribology, Naohiro Matsumoto, Hiroki Suzuki, *Hiroshi Kinoshita and Nobuo Ohmae, Tribology Online, Vol. 3, No. 4, pp.232-237 (2008).
  • Diamond-derived carbon onions as lubricant additives, L. Joly-Pottuz, N. Matsumoto, H. Kinoshita, B. Vacher, M. Belin, G. Montagnac, J.M. Martin, *N. Ohmae, Tribology International, Vol. 41, issue. 2, pp. 69-78 (2008).
  • Wettability Effect of Hydroxyl and Alkane Fluids for Preventing Adhesion of Aluminum Alloy to Tungsten Carbide, *H. Kinoshita, H. Yoshimura, N. Ohmae, Journal of Advanced Mechanical Design, Systems, and Manufacturing, Vol. 1, No. 5 pp.737-742 (2007).
  • Synthesis and mechanical properties of carbon nanotube/diamond-like carbon composite films,* H. Kinoshita, I. Kume, H. Sakai, N. Ohmae , Diamond and Related Materials, Vol. 16, Issue 11, pp. 1940-1944 (2007).
  • Application of onion-like carbon to micro and nanotribology, N. Matsumoto, L. Joly-Pottuz, H. Kinoshita, *N. Ohmae, Diamond and Related Materials, Vol. 16, issue 4-7,pp. 1227-1230 (2007).
  • Atomic structure and field evaporation of carbon nanotube studied by atom probe field ion microscopy, *N. Ohmae, N. Matsumoto, T. Ohata, H. Kinoshita, Diamond and Related Materials, Vol. 16, issue 4-7,pp. 1179-1182 (2007).
  • Degradation on a mechanical property of high-modulus aramid fiber due to hyperthermal atomic oxygen beam exposures, L. Ghosh, H. Kinoshita, *N. Ohmae, Composite Science and Technology, Vol. 67, issue 7-8pp. 1611-1616 (2007).
  • Synergistic effect of hyperthermal atomic oxygen beam and vacuum ultraviolet radiation exposures on the mechanical degradation of high-modulus aramid fibers, L. Ghosh, H. Fadhilah, H. Kinoshita, *N. Ohmae, Polymer, Vol. 47, Issue 19 pp. 6836-6842 (2006).
  • Study on Near Dry Machining of Aluminum Alloys, *H. Yoshimura, T. Moriwaki, N. Ohmae, T. Nakai, H. Shibasaka, H. Kinoshita, H. Matsui, M. Shimizu, JSME International Journal, Series C, Vol. 49, Issue. 1, pp. 83-89 (2006).
  • Transformation of diamond nanoparticles into onion-like carbon by electron irradiation studied directly inside an ultrahigh-vacuum transmission electron microscope , J. Hiraki, H. Mori, E. Taguchi, H. Yasuda, H. Kinoshita, *N. Ohmae, Applied Physics Letters, Vol. 86, Issue 22, Article Number 223101 (2005).
  • Influence of humidity on microtribology of vertically aligned carbon nanotube film, V. Turq, *N. Ohmae, J.M. Martin, J. Fontaine, H. Kinoshita, J.L. Loubet , Tribology Letters, Vol. 19, Issue 1, pp. 23-28 (2005)
  • 円周走査型原子間力顕微鏡の開発, *木之下博 et al., トライボロジスト, Vol 449, issue 11, pp. 886-893 (2004).
  • High friction of a vertically aligned carbon-nanotube film in microtribology, *H. Kinoshita, I. Kume, M. Tagawa, N. Ohmae , Applied Physics Letters, Vol. 85, Issue 14, pp. 2780-2781 (2004).
  • High growth rate of vertically aligned carbon nanotubes using a plasma shield in microwave plasma-enhanced chemical vapor deposition, *H. Kinoshita, I. Kume, H. Sakai, M. Tagawa, N. Ohmae, Carbon, Vol. 42, Issue 12-13, pp. 2753-2756 (2004).
  • LIGA Ni 膜上の水分子吸着と摩擦特性に与える影響, 馬場康之, 木之下博, et al., トライボロジスト, 44巻 5号, pp. 379-386 (1999).
  • Hyperthermal atomic oxygen beam-induced etching of HOPG (0001) studied by X-ray photoelectron spectroscopy and scanning tunneling spectroscopy, H. Kinoshita, *M. Tagawa, M. Umeno, N. Ohmae, Surface Science, Vol. 440, Issue 1-2, pp. 49-59 (1999).
  • A Fast Atomic Oxygen Beam Facility with in situ Testing/Analysis Capabilities,H. Kinoshita, J. Ikeda, *M. Tagawa, M. Umeno, N. Ohmae, Review of Scientific Instruments, Vol. 69, Issue 6, pp. 2273-2277 (1998).