Eco-MCPS : a Newly Developed Web-Based Database for Eco-Materials in Japan
スポンサーリンク
概要
- 論文の詳細を見る
- Japan Institute of Metalsの論文
- 2007-12-01
著者
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Iji Masatoshi
Nec Corporation Eco-material Nano Electronics Research Laboratories
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HALADA Kohmei
National Institute for Materials Science
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Halada K
Innovative Materials Engineering Laboratory National Institute For Materials Science
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Halada Kohmei
National Institute For Material Science
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Halada Kohmei
Ecomaterials Center National Institute For Materials Science
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Halada Kohmei
National Institute Of Materials Science
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OZAO Riko
SONY Institute of Higher Education
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YAMADA Katsutoshi
Innovative Materials Engineering Laboratory, National Institute for Materials Science
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Halada K
National Institute For Materials Science
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Yamada K
Innovative Materials Engineering Laboratory National Institute For Materials Science
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Yamada Katsutoshi
National Institute For Materials Science
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Shinohara Yoshikazu
Innovative Materials Engineering Laboratory National Institute For Materials Science
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Shinohara Yoshikazu
National Institute For Materials Science
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SAWAGUCHI Takashi
SONY Institute of Higher Education
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ISHIDA Hideya
Waseda University, Graduate School of Environment and Energy Engineering
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FURUYAMA Teruo
Nippon Steel Corporation
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Ishida Hideya
Waseda University Graduate School Of Environment And Energy Engineering
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Iji Masatoshi
Nec Corp. Ibaraki Jpn
関連論文
- Production of Fine Metallic Powders by Hybrid Atomization Process
- 202 Production of Fine Metallic Powders By Hybrid Atomization Process
- New Step of Ecomaterial to Break through the Barrier between Ecomaterial-Selection and Eco-Design
- Barrier-Free Processing of Materials for Environmentally Benign Life-Cycle Design
- PbTe熱電材料の比抵抗の温度履歴
- 傾斜機能構造化によるPb_Sn_xTeの熱電特性向上の可能性
- 焼結法と溶製法によるIrSb_3の熱電特性
- Utilization of Powder Microstructure to Strengthening of Fe-Cu Alloy From Rapidly Solidified Powder
- Hybrid Atomization Process Applied to Fine Lead-Free Solder Powder Production
- Effect of Consolidation Process on Tensile Properties of Fe-Cu P/M Alloy from Rapidly Solidified Powder
- Aluminum-Alloyed Cast Iron as a Versatile Alloy
- Environmental Loads of Process Scrap by using I/O table for Life Cycle Inventory
- Life Cycle Assessment on Newly Developing Steel Recycling System by using I/O Table
- Surface Structure of Woodceramics Manufactured from Cedar
- Gas Adsorption Properties of Woodceramics
- Critical Issues in Promotion of Environmentally Benign Manufacturing and Materials Processing
- Utilization of iron-aluminum scrap as raw material of cast iron
- Decoupling Status of Metal Consumption from Economic Growth
- Forecasting of the Consumption of Metals up to 2050
- PREFACE
- Recent Ecomaterial Developments and Environmental Achievements of Major Industries in Japan
- Dense P/M Component Produced by Solid Freeform Fabrication (SFF)
- Web-Site Survey of Recent Ecomaterial Developments in Japan
- Analysis of the Current Status of Ecomaterials in Japan
- Effect of microstructure on tensile properties of consolidated Fe-Cu alloy from rapid solidified powder
- New processing for recycling of iron scrap by consolidation of Fe-Cu alloy rapid solidified powder
- Deformation and Fracture Mechanism of Consolidated Fe-Cu Alloy from Rapidly Solidified Powder
- PREFACE
- Thermoelectric Performance of p-Type Mg_2Si_Sn_ with Li and Ag Double Doping
- PREFACE
- Formation of graded carrier concentration in thermoelectric material PbTe
- Exergy Analysis to Evaluate Integrated Environmental Impacts
- How to estimate the effect of a new technology on the environment? : III. Findings from the case studies and resource productivity, eco-efficiency, and greenity
- How to estimate the effect of a new technology on the environment? : II. Cases of a steel hot-rolling technology and a magnesium alloy forming technology
- Eco-MCPS : a Newly Developed Web-Based Database for Eco-Materials in Japan
- Special Issue on Growth of Ecomaterials as a Key to Eco-Society III
- Woodceramic Heating Elements for Low Temperature Heating
- Special Issue on Growth of Ecomaterials as a Key to Eco-Society V
- Heat Treatment Effects on Electrochemically Grown Bi_2Te_3 Thin Films for Thermoelectric Applications