Direct Bonding of Dissimilar Materials Having 3D Nanostructured Interfaces
2017-0223-06
- researcher's name
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about researcher HOSOI, Atsushi Professor
- affiliation
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Faculty of Science and Engineering School of Fundamental Science and Engineering
- research field
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Materials/Mechanics of materials
- keyword
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background
● Application of carbon fiber reinforced thermoplastic (CFRTP) composites to vehicles and improvement of their productivity, recyclability and fuel economy
● Development of joining technology between CFRTP and aluminum alloy for the multimaterial light weigh vehicles
summary
● Fabrication of nanospike structure (NSS) on aluminum surfaces
● Direct joining of CFRTP and Al by hotpress
● Improvement of adhesive strength by silane-coupling treatment
● Direct joining of CFRTP and Al by hotpress
● Improvement of adhesive strength by silane-coupling treatment
predominance
● Higher adhesion strength due to anchor effects
● Excellent in recyclability for only Al and CFRTP use
● Excellent in recyclability for only Al and CFRTP use
application/development
● Direct bonding of transportation equipment members by hotpress molding
● Development of new composites based on CFRTP and Al
● Development of new composites based on CFRTP and Al
collaborative researchers
阿部 暉 , KAWADA, Hiroyuki Professor (Faculty of Science and Engineering School of Fundamental Science and Engineering)
same researcher's seeds
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Fabrication of carbon nanotube yarn with high functionality -
Healing of Fatigue Crack in the Metallic Materials by Heat Treatment
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Dissimilar Materials Bonding with 3D Nano Interface
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Development of Test Method for Evaluating Pure Mode Interlaminar Fracture Toughness of Dissimilar Materials
posted:
2017/02/23