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Analysis of fracture of oxide film for bonding with reduction of enviromental consumption
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- KAWAKAMI Hiroshi
- Principal Investigator
- 三重大学
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- KODAMA Seiya
- Research Collaborator
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- ODA Yoshinori
- Research Collaborator
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- OHBAYASHI Yo
- Research Collaborator
About This Project
- Japan Grant Number
- JP15K06464 (JGN)
- Funding Program
- Grants-in-Aid for Scientific Research
- Funding Organization
- Japan Society for the Promotion of Science
Kakenhi Information
- Project/Area Number
- 15K06464
- Research Category
- Grant-in-Aid for Scientific Research (C)
- Allocation Type
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- Multi-year Fund
- Review Section / Research Field
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- Science and Engineering > Engineering > Material engineering > Composite materials/Surface and interface engineering
- Research Institution
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- Mie University
- Project Period (FY)
- 2015-04-01 〜 2018-03-31
- Project Status
- Completed
- Budget Amount*help
- 4,680,000 Yen (Direct Cost: 3,600,000 Yen Indirect Cost: 1,080,000 Yen)
Research Abstract
Effect of the reduction of the environmental consumption by vacuum free self fusion solidification bonding of aluminum with the periodic motion of the bonding interface was investigated in this study. The reductions of the bonding temperature and the insert metal thickness were introduced by the periodic motion. These reductions realized the energy conservation and the resource saving, respectively. Two types of the deformation mechanism of the bonding interface were classified by the relation with the original surface. The periodic motion during self fusion solidification bonding deformed the bonding interface with the independence from the original shape.