Use of chelating agents for in situ LDH formation on light active metals: Mg vs Al case (05/12/24)
Speaker and Affliation:
Dr. Maria Serdechnova
Research Scientist, Institute of Functional Surfaces, Helmholtz-Zentrum hereon, Geesthacht, Germany
When?
5th December, 2024 (Thursday), 3.00 PM (India Standard Time)
Where
KPA Auditorium, Dept. of Materials Engineering, IISc, Bangalore
Abstract:
For many years, the corrosion protection of Mg and Al alloys was dominated by chromate-based coating solutions. Nowadays, the use of chromates is strictly limited in industrial applications due to their high toxicity. Thus, new alternative coating approaches for aluminum and magnesium need to be developed. Application of LDH-based conversion coatings is a promising direction for corrosion protection of these active light metals. High interest to LDH-based coatings is related to the possibility of loading of corrosion inhibitors into LDH structures and the formation of self-healing layers. However, differences in reactivity of magnesium and aluminum substrates require different approaches to LDH-based surface treatments.
LDH formation is a typical conversion process requiring compounds from the substrate and from the electrolyte. Thus, surface reactivity of both selected metals is an important point, which was addressed by theoretical (thermodynamic calculations) and experimental (laboratory experiments) approaches, to identify suitable chelating agents, which are able to moderate the surface reactivity, resulting in a formation of LDH-based conversion layer. Moreover, anodization and plasma electrolytic oxidation (PEO) pre-treatments, as methods modifying the surface reactivity, were considered prior LDH formation in order to create “smart” protective hybrid coatings. These hybrid coatings provide both barrier and “smart” protection to the active substrate (magnesium and aluminum alloys as well as their galvanic couple combination). However, the direct replication of treatments, leading to LDH formation on bare substrates, is not possible for pre-treated materials due to the different reactivity of the surfaces and availability of cations from the substrates. Thus, the demand for selection of suitable chelating agents becomes even more challenging.
During the presentation, a short “story” of LDH development on aluminum and magnesium substrates will be presented. The comparison of LDH formation conditions will be performed and will be followed by the discussion of roles of chelating agents during the synthesis. The reactivity of selected surfaces will be taken in focus during the talk.