YUMOTO Motoshige | Tokyo City University
スポンサーリンク
概要
関連著者
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Iwao Toru
Tokyo City University
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YUMOTO Motoshige
Tokyo City University
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Iwao Toru
Department Of Electrical And Electronic Engineering Musashi Institute Of Technology
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Inaba Tsuginori
Department Of Electrical Electronic And Communication Engineering Chuo University
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YUWOTO Motoshige
Musashi Institute of Technology
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Yumoto Motoshige
Department Of Electrical And Electronic Engineering Tokyo City University
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Kamishima Shinya
Department Of Electrical And Electronic Engineering Tokyo City University
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Tanaka Manabu
Osaka Univ. Osaka Jpn
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Iwao Toru
Musashi Institute Of Technology
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KAMISHIMA Shinya
Tokyo City University
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TASHIRO Shinichi
Osaka university
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YUMOTO Motoshige
Musashi Institute of Technology
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OGURA Naoko
Tokyo City University
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TANAKA Manabu
Osaka university
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KAMISHIMA Shinya
Musashi Institute of Technology
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Sakai Tadashi
Tokyo City University
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TAKI Hiroyuki
Tokyo City University
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SHIMOKURA Takuya
Tokyo City University
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TASHIRO Shinich
Osaka University
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MORI Yusuke
Tokyo City University
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NANBA Masashi
Tokyo City University
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MITSUYASU Eriko
Tokyo City University
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MOMII Taira
Tokyo City University
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Morita Yusuke
Tokyo City University
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INOMATA Tsuyoshi
Tokyo city university
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YAMAMOTO Shinji
Tokyo City University
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Iwao Toru
Department Of Biopharmaceutics Kyoto Pharmaceutical University
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Oinuma Kazuhiro
Musashi Institute Of Technology
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MORITA Yusuke
Musashi Institute of Technology
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INOMATA Tsuyoshi
Musashi Institute of Technology
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KAMISHIMA Shinya
Department of Electrical and Electronic Engineering, Tokyo City University
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YUMOTO Motoshige
Department of Electrical and Electronic Engineering, Tokyo City University
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Yumoto Motoshige
Department Of Electrical And Electronic Engineering Musashi Institute Of Technology
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Suzuki Yoshihiro
Tokyo City University
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SAITO Yuki
Tokyo City University
著作論文
- Heat Transfer of Pulsed Arc as a Function of Current Frequency and Pulsed Width Ratio
- Heat Transfer of Pulsed Arc as a Function of Current Pulse Width Ratio
- Movement of Vacuum Arc Cathode Spots on SS400(Fe+C) Surface with Oxide Layer
- Lateral Gas Flow for Fluctuating Anode Attachment
- Thickness of Oxide Layer for Movement of Cathode Spots in Low-Pressure Arc
- Split Process of Low-Pressure Arc Cathode Spots on SS400 Surface with Oxide Layer
- Movement and Tracking of Low-Pressure Arc Cathode Spots on SS400 Surface with Oxide Layer
- Movement of Cathode Spots on SS400 Surface with Oxide Layer
- Measurement of Arc Time Constant under External Magnetic Field
- Split Process of Low-Pressure Arc Cathode Spots on SS400(Fe+C) Surface with Oxide Layer
- Temperature Distribution Variation of Anode Jet Affected by Iron Vapor Concentration
- Dependence on Pulse Frequency of Arc for Iron Vapour and Radiation Power Distribution
- Removal Process of Oxide Layer on Metal Surface using Cathode Spot in Vacuum Arc
- Conductance and Temperature Distribution of Arc with Decreasing Current
- Contribution of Radiation Increment of SF_6 Arc Affected by Electrode Tip Angle and Gas Flow Rate
- Temperature Change with Time near Anode in Pulsed Arc Affected by Current Increment Ratio
- Removal Process of Oxide Layer on Metal Surface using Cathode Spot in Vacuum Arc
- Dependence on Pulse Frequency of Arc for Iron Vapour and Radiation Power Distribution
- Dependence on Pulse Frequency of Arc for Iron Vapour and Radiation Power Distribution
- Removal Process of Oxide Layer on Metal Surface using Cathode Spot in Vacuum Arc
- Temperature Distribution Variation of Anode Jet Affected by Iron Vapor Concentration
- Removal Process of Cathode Spot of Vacuum Arc with Vapor from Oxide Layer
- Improvement of Color Rendering Spectrum Affected by Scandium Vapor Mixed with High Temperature Argon Medium
- Heat Transfer to Anode Affected by Current Increment Ratio in Pulsed Arc Welding
- Heat Transfer to Anode Affected by Current Increment Ratio in Pulsed Arc Welding
- Removal Process of Cathode Spot of Vacuum Arc with Vapor from Oxide Layer
- Improvement of Color Rendering Spectrum Affected by Scandium Vapor Mixed with High Temperature Argon Medium
- Temperature Distribution Variation of Anode Jet Affected by Iron Vapor Concentration