@misc{goushegir_durability_of_2020, 
author={Goushegir, S., Scharnagl, N., dos Santos, J., Amancio-Filho, S.},
title={Durability of Metal-Composite Friction Spot Joints under Environmental Conditions},
year={2020},
howpublished = {journal article},
doi = {https://doi.org/10.3390/ma13051144},
abstract = {The current paper investigates the durability of the single-lap shear aluminum-composite friction spot joints and their behavior under harsh accelerated aging as well as natural weathering conditions. Four aluminum surface pre-treatments were selected to be performed on the joints based on previous investigations; these were sandblasting (SB), conversion coating (CC), phosphoric acid anodizing (PAA), and PAA with a subsequent application of primer (PAA-P). Most of the pre-treated specimens retained approximately 90% of their initial as-joined strength after accelerated aging experiments. In the case of the PAA pre-treatment, the joint showed a lower retained strength of about 60%. This was explained based on the penetration of humidity into the fine pores of the PAA pre-treated aluminum, reducing the adhesion between the aluminum and composite. Moreover, friction spot joints produced with three selected surface pre-treatments were held under outside natural weathering conditions for one year. PAA-P surface pre-treated specimens demonstrated the best performance with a retained strength of more than 80% after one year. It is believed that tight adhesion and chemical bonding reduced the penetration of humidity at the interface between the joining parts. View Full-Text},
note = {Online available at: \url{https://doi.org/10.3390/ma13051144} (DOI). Goushegir, S.; Scharnagl, N.; dos Santos, J.; Amancio-Filho, S.: Durability of Metal-Composite Friction Spot Joints under Environmental Conditions. Materials. 2020. vol. 13, no. 5, 1144. DOI: 10.3390/ma13051144}}