Department of Mechanical Engineering for Transport

Osamu Yamada

  (山田 修)

Profile Information

Affiliation
Professor, Faculty of Engineering, Department of Mechanical Engineering for Transportation, Osaka Sangyo University
(Concurrent)Deans
(Concurrent)Deans
(Concurrent)Deans
(Concurrent)Vice President
Degree
Master of Engineering(金沢大学)
工学修士(金沢大学)
Doctor of Engineering(Osaka University)
工学博士(大阪大学)

Researcher number
10140203
J-GLOBAL ID
200901084888818020
researchmap Member ID
1000107807

External link

Papers

 69
  • Hiroshi Moriwaki, Takumi Otsuka, Yukari Kawabe, Issey Osaka, Akio Miyazato, Junpei Maruo, Osamu Yamada
    International Journal of Mass Spectrometry, 428(428) 49-54, May 1, 2018  Peer-reviewed
    Porous TiC ceramic powder was used as a novel substrate for the surface-assisted laser desorption/ionization mass spectrometry (SALDI-MS) analysis of various environmental pollutants. The porous TiC ceramic powder has a nano-structural morphology with a high surface area, an electrical conductivity, and a photoabsorption at the Nd:YAG laser band of 355 nm. These properties of the porous TiC ceramics suggest having a good compatibility as a substrate for SALDI-MS. Furthermore, the porous TiC ceramic powder can be used as an adsorbent for environmental pollutants. The porous TiC ceramic powder was added to a perfluorooctane sulfonate (PFOS) aqueous solution. The liquid was shaken for 2 h, and PFOS was adsorbed onto the TiC ceramics. The liquid was filtered, and the residue was dried. The obtained powder was fixed on a carbon tape and measured by SALDI-MS in the negative ion mode. As a result, the peak assignable to PFOS (C8F17SO3 −) was detected, and no other significant peaks at m/z 100–500 were observed. As for the other analytes, the ion peaks corresponding to the anions or cations derived from these compounds in the negative or positive ion mode were observed using the same treatments.
  • Ryota Nomura, Risa Yoneyama, Shuhei Naka, Masatoshi Otsugu, Yuko Ogaya, Rina Hatakeyama, Yumiko Morita, Jumpei Maruo, Michiyo Matsumoto-Nakano, Osamu Yamada, Kazuhiko Nakano
    CARIES RESEARCH, 51(1) 58-67, 2017  Peer-reviewed
    Combustion-synthesized titanium carbide ceramics uniformly disperse silver, producing silver ions and hydroxyl radicals in water. This generates antimicrobial activity against various bacteria. One such bacterium is Streptococcus mutans, a gram-positive anaerobic bacterium known as a major pathogen of dental caries. In this study, we analyzed the inhibition of oral biofilms and S. mutans by ceramic water in in vitro and human studies. S. mutans strains showed significantly lower antimicrobial and sucrose-dependent adhesion activity in the presence of ceramic powder compared with untreated culture medium. Confocal microscopy revealed that S. mutans biofilm structures with ceramic powder were thin and coarse. Twenty-seven volunteers (13 males, 14 females; 18-37 years old, mean 25.2 years) were enrolled for subsequent studies. After each meal, one group was asked to rinse with ceramic water while the other rinsed with untreated water for 1 week. After 1 week, the rinsing contents were switched between the groups and the same protocol was followed for an additional week. After rinsing with ceramic water, the average plaque score was 43.0 +/- 3.7, which was significantly lower than the baseline value (74.1 +/- 5.7, p < 0.001). However, no significant difference was observed when rinsing with untreated water. In addition, the total number of S. mutans in saliva was significantly reduced after rinsing with ceramic water compared with untreated water (p < 0.05). These results suggest that ceramic water possesses antimicrobial activity against S. mutans and inhibits biofilm formation. Rinsing with ceramic water can also inhibit dental plaque formation and S. mutans colonization in humans. (C) 2016 S. Karger AG, Basel
  • Hiroshi Moriwaki, Shiori Kitajima, Koji Shirai, Kenji Kiguchi, Osamu Yamada
    JOURNAL OF HAZARDOUS MATERIALS, 185(2-3) 725-731, Jan, 2011  Peer-reviewed
    The aim of this study is to investigate the utilization of the powder of porous titanium carbide (TiC) ceramics as a novel adsorbent or a material for solid-phase extraction (SPE). The adsorption and elution of inorganic and organic pollutants, Pb(II), 2,4,6-trichlorophenol (TCP), perfluorooctane sulfonate (PFOS), and perfluorooctanoic acid (PFOA), to the material were evaluated. The cartridge packed with TiC ceramics powder was used for the extraction test of pollutants. The solution containing pollutants at 1.0 mu g mL(-1) was passed through the TiC cartridge, and the substances were almost quantitatively removed. Furthermore, the pollutants retained in the cartridge were eluted with 3 N HCl for Pb(II) and with methanol for organic pollutants. The recoveries of pollutants were over 80%. In addition, we used the TiC cartridge for the solid-phase extraction of water samples (500 mL each of the distilled water and the river water) by adding pollutants at determined concentrations. Every pollutant was adsorbed almost quantitatively, and eluted by 3 N HCl or methanol. From these results, we concluded that the powder of porous TiC ceramics is a useful reusable adsorbent for the water cleanup and solid-phase extraction. (C) 2010 Elsevier B.V. All rights reserved.
  • 谷口省吾, 尾崎博明, 山田修, Rabindra.R.Giri
    環境工学研究論文集, 44 299-305, Nov, 2007  Peer-reviewed
  • O.Yamada
    Thin Solid Films, 509 207-211, May, 2006  Peer-reviewed

Books and Other Publications

 2
  • ほか (Role: Joint author)
    (株)T.I.C., May, 1992
    燃焼合成研究会によって編集された本書は、現在までの燃焼合成に関する研究をほぼ網羅した総合的な内容であり、次のように二部構成からをっている。 第1部 第1章 燃焼合成理論 第2章 燃焼合成の反応 第2部 第1章 粉末合成 第2章 合成同時成形 第3章 急速加熱処理 種々のセラミックスや金属間化合物を対象とした燃焼合成研究のめざましい進展の中で、本書がさらなる研究開発の有効な指針となることを期待している。なお、筆者は第1部第2章2節「固体―気体反応」および3節「反応の制御」を担当した。
  • (Role: Supervisor (editorial))
    1992

Presentations

 1

Professional Memberships

 11

研究テーマ

 8
  • 研究テーマ(英語)
    セラミックスの燃焼合成
    キーワード(英語)
    セラミックス,燃焼合成
    概要(英語)
    化学反応熱を有効に利用した非酸化物セラミックスの瞬間合成方法
    研究期間(開始)(英語)
    1981/04/01
  • 研究テーマ(英語)
    金属間化合物の燃焼合成
    キーワード(英語)
    金属間化合物,燃焼合成
    概要(英語)
    化学反応熱を有効に利用した金属間化合物の瞬間合成方法
    研究期間(開始)(英語)
    1982/04/01
  • 研究テーマ(英語)
    燃焼合成によるセラミック多孔質体の応用
    キーワード(英語)
    セラミックス,多孔質体,導電性,スケルトン構造,耐熱耐食性
    概要(英語)
    導電性や耐熱耐食性を利用した高温過熱水蒸気発生用ヒータや触媒分野に適用
    研究期間(開始)(英語)
    1999/04/01
  • 研究テーマ(英語)
    1000℃高温過熱水蒸気発生装置の開発
    キーワード(英語)
    過熱水蒸気
    概要(英語)
    腐食の問題から通常の耐熱合金やカーボンなどでは不可能な1000℃以上の高温過熱水蒸気を発生できる装置の開発
    研究期間(開始)(英語)
    2002/04/01
  • 研究テーマ(英語)
    高温過熱水蒸気によるバイオマスの完全ガス化
    キーワード(英語)
    高温過熱水蒸気,バイオマス,ガス化,水素
    概要(英語)
    1000℃の高温過熱水蒸気中に草木累のバイオマスチップを投入することにより,水素を50%以上含む可燃性ガス化に成功。
    研究期間(開始)(英語)
    2004/04/01
  • 研究テーマ(英語)
    高温過熱水蒸気によるダイオキシン類など有害有機物の分解・完全無害化
    キーワード(英語)
    ダイオキシン類,分解,無害化
    概要(英語)
    高温過熱水蒸気中にダイオキシン類を投入することにより分解と完全無害化を行う。薬品類を使用せず,水を使用するため環境負荷が極めて小さい優れた無害化技術である。
    研究期間(開始)(英語)
    2005/04/01
  • 研究テーマ(英語)
    高温過熱水蒸気による有害排気ガス分解
    研究期間(開始)(英語)
    2005/04/01
  • 研究テーマ(英語)
    セラミックスを用いた医薬品,化粧品,飲食品の開発
    研究期間(開始)(英語)
    2014/04/01