Development of a Porous FeSi_2 Thermoelectric Conversion Element
スポンサーリンク
概要
- 論文の詳細を見る
- 2000-05-20
著者
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KATSUKI Futoshi
Corporate Research and Development Laboratories, Sumitomo Metal Industries Limited
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TOMIDA Toshiro
Corporate Research and Development Laboratories, Sumitomo Metal Industries Limited
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TAKATA Akihiro
Technological Research Laboratory, Sanyo Special Steel Co., Ltd.
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YANAGIMOTO Katsu
Technological Research Laboratory, Sanyo Special Steel Co., Ltd.
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MATSUDA Sadamu
Technological Research Laboratory, Sanyo Special Steel Co., Ltd.
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Takata Akihiro
Technological Research Laboratory Sanyo Special Steel Co. Ltd.
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Tomida Toshiro
Corporate Research & Development Laboratories Sumitomo Metal Industries Ltd.
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Tomida T
Sumitomo Metal Ind. Ltd. Amagasaki Jpn
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Tomida Toshiro
Corporate Research And Development Laboratories Sumitomo Metal Industries Limited
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Matsuda Sadamu
Technological Research Laboratory Sanyo Special Steel Co. Ltd.
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Katsuki Futoshi
Corporate Research And Development Laboratories Sumitomo Metal Industries Limited
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Yanagimoto Katsu
Technological Research Laboratory Sanyo Special Steel Co. Ltd.
関連論文
- The Atomic-Scale Removal Mechanism during Si Tip Scratching on Si and SiO_2 Surfaces in Aqueous KOH with an Atomic Force Microscope
- Temperature Distributions and Thermoelectrical Performance of a Porous FeSi_2 Element in a Steady State of Reciprocatory Flow Combustion
- Development of a Porous FeSi_2 Thermoelectric Conversion Element
- Scanning Tunneling Microscope Observation of Surface Morphology of Silicon Steel Sheets
- Grain Refinement of C-Mn Steel to 1μm by Rapid Cooling and Short Interval Multi-pass Hot Rolling in Stable Austenite Region
- Super Short Interval Multi-pass Rolling Process for Ultrafine-grained Hot Strip
- Magnetic Domain Structures in Electrical Steel Sheets Studied by Lorentz Microscopy and Electron Holography
- Fine-Grained Doubly Oriented Silicon Steel Sheets and Mechanism of Cube Texture Development
- Decarburization of 3%Si-1.1%Mn-0.05%C Steel Sheets by Silicon Dioxide and Development of {100} Texture
- Transformation Texture in Hot-rolled steel Sheets and Its Quantitative Prediction