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Ichikawa, Yuji
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Publications (7/7 displayed)
- 2024Mechanically Robust Self‐Organized Crack‐Free Nanocellular Graphene with Outstanding Electrochemical Properties in Sodium Ion Batterycitations
- 2023Interfacial oxidation and boundary amorphization deposition mechanisms of GaN powder on metallic substrate by low-pressure cold sprayingcitations
- 2021Microstructure and corrosion study of Fe-based bulk metallic glass obtained by spark plasma sinteringcitations
- 2021Development of Cu Coating on Ceramic Substrates by Low Pressure Cold Spray and its Deposition Mechanism Analysiscitations
- 2021Effect of Pre-Treatment on Substrates for Metal Coatings Fabricated by Low Pressure Cold Spray Technique
- 2021Cold Spray Sn Coating on the Carbon Fiber Reinforced Polymercitations
- 2020Adhesion mechanism of temperature effects on Sn coating on the carbon fiber reinforced polymer substrate by cold spray
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document
Adhesion mechanism of temperature effects on Sn coating on the carbon fiber reinforced polymer substrate by cold spray
Abstract
Metalization of carbon fiber reinforced polymers (CFRPs) composites by the surface modification method to enhance their electrical conductivity, thermal conductivity, electromagnetic shielding, erosion, and radiation protection, has a significant meaning in the aerospace field. In this study, Sn coating was successfully fabricated on the CFRP composite substrate via low-pressure cold spray under four gas temperatures (473K, 523K, 573K, and 623K). Their bonding mechanism was explored via the surface observation after peel-off adhesion strength, accompanying with surface temperature distribution investigation. The results indicates that we cannot obtain coating at 623 K, the epoxy matrix of the CFRP substrate was gradually eroded during deposition over 523 K. Meanwhile, Sn particles melt under 623 K condition. Three kinds of interfaces: Sn/epoxy, Sn/CF, and Sn/CF/epoxy are revealed as characteristics with respect to different gas temperatures to explore the bonding mechanisms.