Corrosion Evaluation of Body in White Bimetallic Joints

ALLÉLY, C. L. – DOSDAT, L. – CLAUZEAU, O. – OGLE, K. – VOLOVITCH, P. 2014. Anticorrosion mechanisms of aluminized steel for hot stamping. In Surface and Coatings Technology, vol. 238, pp. 188–196. Search in Google Scholar

ASTM-B117-19: 2019. Standard practice for operating salt spray (fog) apparatus. Search in Google Scholar

BRITNER, A. – DIEU, C. – PODLESCHNY, R. 2021. Corrosion protection for cold-formed structural steel elements. In Steel Construction, vol. 14, no. 4, pp. 250–257. Search in Google Scholar

CISCHINO, E. – VULUGU, Z. – EZEIZA, C. E. – BENITO, I. L. – MANGINO, E. – CRISTIANSEN, J. C. – SANPOREAN, C. G. – PAOLO, F. – KIRPLUKS, M. – CABULIS, P., 2017. A concrete and viable example of multi-material body: The Evolution project main outcomes. In Proceedia CIRP, vol. 66, pp. 300–305.10.1016/j.procir.2017.03.292 Search in Google Scholar

EN ISO 4628-1:2016. Paints and varnishes – Evaluation of degradation of coatings – Designation of quantity and size of defects, and of intensity of uniform changes in appearance – Part 1: General introduction and designation system. Search in Google Scholar

EN ISO 4628-2:2016. Paints and varnishes – Evaluation of degradation of coatings – Designation of quantity and size of defects, and of intensity of uniform changes in appearance – Part 2: Assessment of degree of blistering. Search in Google Scholar

EN ISO 9227:2017. Corrosion tests in artificial atmospheres – Salt spray tests. Search in Google Scholar

EN ISO 12944-1:2017. Paints and varnishes – Corrosion protection of steel structures by protective paint systems – Part 1: General Introduction. Search in Google Scholar

FENG, Z. – FRANKEL, G. S. 2014. Galvanic test panels for accelerated corrosion testing of coated Al alloys: Part 2 – Measurement of galvanic interaction. In Corrosion, vol. 70, no. 1, pp. 95–106. Search in Google Scholar

FENTAHUN, M. A. – SAVAS, M. A. 2018. Materials used in automotive manufacture and material selection using Ashby charts. In International Journal of Materials Engineering, vol. 8, no. 3, pp. 40–54. Search in Google Scholar

GOLDSCHMIDT, A. – STREITBERGER, H. J. 2007. Basics of Coating Technology. 2^nd ed., Hannover : Vincentz Network, 792 pp. ISBN 9783866309036. Search in Google Scholar

GULLINO, A. – MATTEIS, P. – D’AIUTO, F. 2019. Review of aluminiumto-steel welding technologies for car-body applications. In Metals, vol. 9, no. 3, article no. 315. Search in Google Scholar

LIU, M. – GUO, Y. – WANG, J. – YERGIN, M. 2018. Corrosion avoidance in lightweight materials for automotive applications. In Materials Degradation, vol. 2, article no. 24. Search in Google Scholar

LOZRT, J. – VOTAVA, J. – ŠMAK, R. 2021. Duplex anti-corrosion protection of steel using a combination of hot-dip galvanising and water-soluble paints. In Acta Technologica Agriculturae, vol. 24, no. 3, pp. 129–135. Search in Google Scholar

REIF, K. 2014. Fundamentals of Automotive and Engine Technology. Wiesbaden : Springer Vieweg, 286 pp. ISBN 978-3-658-03972-1. Search in Google Scholar

TPJLR 52.265. Laboratory accelerated cyclic corrosion tests. Jaguar Land Rover. Search in Google Scholar

VDA 233-102: 2013. Cyclic corrosion testing of materials and components in automotive construction. Verband der Automobilindustrie. Search in Google Scholar

VOTAVA, J. – JUKL, M. – POLCAR, A. – KUMBÁR, V. – DOSTÁL, P. 2018. Anti-corrosion systems in vehicles for the transportation and application of fertilizers. In Metallic Materials, vol. 56, no. 2, pp. 131–136. Search in Google Scholar

VOTAVA, J. – KUMBÁR, V. – POLCAR, A. – FAJMAN, M. 2020. Change of mechanical properties of zinc coatings after heat treatment. In Acta Technologica Agriculturae, vol. 23, no. 1, pp. 7–11. Search in Google Scholar

XAVIER, J. R. 2020. Galvanic corrosion of copper/titanium in aircraft structures using a cyclic wet/dry corrosion test in marine environment by EIS and SECM techniques. In SN Applied Sciences, vol. 2, article no. 1341. Search in Google Scholar

ZHOU, Y. – QI, J. – ENGELBERG, D. L. 2021. On the application of bipolar electrochemistry for simulating galvanic corrosion behaviour of dissimilar stainless steels. In Electrochemistry Communications, vol. 126, article no. 107023. Search in Google Scholar