Fabrication of Copper Matrix Composites and Simultaneous Bonding with Aluminum Alloy Using Combustion Reaction of Cu-Ti-B System
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概要
- 論文の詳細を見る
- Japan Institute of Metalsの論文
- 2004-11-20
著者
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Kwon Yong-jai
Department Of Materials Processing Engineering Graduate School Of Engineering Nagoya University
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KOBASHI Makoto
Department of Materials Science and Engineering, Graduate School of Engineering, Nagoya University
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KANETAKE Naoyuki
Department of Materials Science and Engineering, Graduate School of Engineering, Nagoya University
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Kobashi M
Department Of Materials Processing Engineering Graduate School Of Engineering Nagoya University
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Kobashi Makoto
Department Of Materials Processing Engineering School Of Engineering Nagoya University
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Kanetake Naoyuki
Department Of Materials Processing Engineering Graduate School Of Engineering Nagoya University
関連論文
- Synthesis of Porous Al_3Ti/Al Composite and Effect of Precursor Processing Condition on Cell Morphology
- Synthesis of Fine Ceramic Particles in Molten Aluminum by Combustion Reaction
- Observation of Foaming Behavior for Rolled Sheet Precursors Made of Various Aluminum Powders
- Fabrication of Copper Matrix Composites and Simultaneous Bonding with Aluminum Alloy Using Combustion Reaction of Cu-Ti-B System
- Fabrication of TiB_2/Al Composites by Combustion Synthesis of Al-Ti-B System
- Fabrication of an in situ TiB_2/Al composite by spontaneous infiltration method using TiCxNl-x and B powders
- Producing Technology of Aluminum Foam from Machined Chip Waste
- Effects of Processing Parameters on Pore Morphology of Combustion Synthesized Al-Ni Foams
- Foaming and Filling-in Behavior of Porous Aluminum in Hollow Components
- Reactive Infiltration of TiN Powder Preform with Molten Aluminum for the Fabrication of Nitride Ceramics Composite
- Synthesis of AlN/Al Alloy Composites by in situ Reaction between Mg_3N_2 and Aluminum
- PREFACE
- Evaluation of Nitrogen Conversion Ratio on Reaction between BN and Aluminum
- Consolidation and Microstructure Control of Bismuth Antimony Telluride by Compressive Torsion Forming