1–20 von 45 Ergebnissen
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    The high-expansion-ratio gasoline engine for the hybrid passenger car

    Hirose, K. / Ueda, T. / Takaoka, T. et al. | Tema Archiv | 1999

    Synthesis and electrochemical properties of lithium molybdenum oxides

    Kobayashi, H. | Online Contents | 1999
    Beteiligte: Nishimura, Y. , Kurioka, Y.

    Some considerations about the formation mechanism of welding fumes

    Kobayashi,M. / Maki,S. / Hachimoto,Y. et al. | Kraftfahrwesen | 1978

    Ship-shage welds by rotating arc

    Sugitani, Y. / Kobayashi, Y. / Murayama, M. et al. | Tema Archiv | 1990

    Series-connected multi-cell operation of lithium-ion cells by floating method

    Takei, K. | Online Contents | 1997
    Beteiligte: Kobayashi, Y.

    Research and Development of Ceramic Gas Turbine (CGT302) (96-GT-477)

    Takehara, I. | Online Contents | 1998
    Beteiligte: Ichikawa, Y. , Kobayashi, H.

    Research and development of a COM carrier

    Hibi, T. / Matsuishi, S. / Kobayashi, Y. et al. | Tema Archiv | 1986

    Reducing CO2 in the transport sector in Japan

    Yoshida, Y. / Ishitani, H. / Matsuhashi, R. et al. | Tema Archiv | 2000

    PAMAM-stabilized Pt–Ru nanoparticles for methanol electro-oxidation

    Hiramitsu, Y. | Online Contents | 2010
    Beteiligte: Aoki, Y. , Sakiyama, Y. , Nakagawa, Y. , Kobayashi, K.

    Newly developed technology for electrically controlled diesel engines

    Kobayashi,F. / Itoh,Y. / Toyota Motor,JP | Kraftfahrwesen | 1991

    Neues Verbrennungsverfahren fuer ein Clean Diesel System mit DPNR

    Sasaki,S. / Kobayashi,N. / Hashimotoo,Y. et al. | Kraftfahrwesen | 2002

    Gas generation mechanism due to electrolyte decomposition in commercial lithium-ion cell

    Kumai, K. | Online Contents | 1999
    Beteiligte: Kobayashi, Y.