Hayashi Takahiro | Center For Materials & Components Technologies Yamaha Corporation
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概要
関連著者
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Hayashi Takahiro
Center For Materials & Components Technologies Yamaha Corporation
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Horio Yuma
Material & Components Development Center Yamaha Corporation
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Horio Yuma
Productive Technology Business Development Division Yamaha Corporation
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Horio Yuma
Center For Materials & Components Technologies Yamaha Corporation
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Hayashi Takahiro
Material & Components Development Center Yamaha Corporation
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HORIO Yuma
Material & Components Development Center, YAMAHA Corporation
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Yamashita Hiroyuki
Material & Components Development Center Yamaha Corporation
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Yamashita H
Graduate School Of Science And Technology Kobe University
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Yamashita Hiroyuki
Material & Components Development Center, YAMAHA Corporation
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TAKIZAWA Hirotsugu
Department of Applied Chemistry, School of Engineering, Tohoku University
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SEKINE Masayoshi
Productive Technology Business Development Division, YAMAHA Corporation
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Suzuki Junya
Productive Technology Business Development Division Yamaha Corporation
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Takizawa Hirotsugu
Department Of Applied Chemistry Graduate School Of Engineering Tohoku University
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Sekine Masayoshi
Productive Technology Business Development Division Yamaha Corporation
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HORIO Yuma
Center for Materials & Components Technologies, YAMAHA Corporation
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HAYASHI Takahiro
Productive Technology Business Development Division, YAMAHA Corporation
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SUZUKI Junya
Productive Technology Business Development Division, YAMAHA Corporation
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HORIO Yuma
Productive Technology Business Development Division, YAMAHA Corporation
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SEKINE Masayoshi
Materials & Components Development Center, YAMAHA Corporation
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SUZUKI Junya
Materials & Components Development Center, YAMAHA Corporation
著作論文
- Microstructure and Thermoelectric Properties of Hot-Pressed n-Type Bi_Sb_Te_Se_ Alloys Prepared Using a Rapid Solidification Technique
- Microstructure and Thermoelectric Properties of Hot-Pressed p-Type Bi_Sb_Te_3 Alloys Prepared by Rapid Solidification Technique
- Microstructure and Crystal Orientation of Rapidly Solidified (Bi, Sb)_2(Te, Se)_3 Alloys by the Liquid Quenching Technique
- Equal Channel Angular Extrusion Technique for Controlling the Texture of n-Type Bi_2Te_3 Based Thermoelectric Materials
- Thermoelectric and Mechanical Properties of Angular Extruded Bi_Sb_Te_3 Compounds
- Thermoelectric Properties of Texture-Controlled Bi_Sb_Te_Se_ Compounds Prepared by Angular Extrusion Technique