Adhesion mechanism of cold-sprayed Sn coatings on carbon fiber reinforced plastics

Abstract Metallization of carbon fiber reinforced plastics (CFRPs) has been explored to improve the electrical and thermal conductivities for avoiding thermal degradation and preventing lightning strikes on aircraft. Recently, we have succeeded in the deposition of Sn on CFRP using cold spraying. Therefore, in this study, we investigated the adhesion mechanism of the cold-sprayed Sn coatings on the CFRPs prepared at different gas temperatures (473 and 523 K). Herein, we conducted the pull-off tests on the specimens deposited at 473 and 523 K, and the obtained results implied that the adhesion strength for the specimen deposited at 523 K was higher. The cross-sectional and superficial observations were carried out after the pull-off test. The obtained results suggest that the chemical reactions between the Sn coating and CFPR substrate hardly occurred during the cold spray. Therefore, mechanical interlocking was considered as the primary mechanism of adhesion. The surface of the CFRP substrate degraded owing to the impacts of stronger particles at higher gas temperatures, representing complex interfacial morphologies that comprise exposed carbon fibers. The resultant rougher surfaces could enhance the mechanical interlocking at the Sn/CFRP interface, thereby improving the adhesion strength.