This study investigates the effect of surface treatment on the formation of Zr-based conversion coatings on AA7075-T6 automotive aluminum alloys and their resistance to filiform corrosion (FFC). Two different surface treatments were studied: (i) alkaline-cleaning and (ii) alkaline-cleaning with a subsequent acid deoxidation step. A model poly-vinyl butyral primer coating was used as the topcoat and specimens were studied with and without the application of a Zr-based conversion coating. Comparisons were made against a control that had no surface treatment. The FFC filament initiation time and propagation kinetics were of particular interest. Scanning electron microscopy and x-ray photoelectron spectroscopy were used to examine the conversion coating thickness and composition. A bi-layer conversion coating structure is demonstrated and both surface treatments are shown to produce copper enrichment that promotes the formation of the Zr-rich coating. Specimens prepared by alkaline cleaning-only resulted in a substantially thicker oxide layer of which 97% was ZrO2. These specimens provide superior resistance to FFC where the thick Zr-rich oxide is thought to provide a dense blocking layer that prevents electron transfer at the interface. In contrast, the control specimen, exposed only to the copper additions present in the conversion bath, is shown to produce an Al oxide-rich layer with only a 33% ZrO2 contribution in the outer layer. The findings demonstrate that the redistribution of functional copper species, that is shown to occur during surface treatment processes, is crucial for the formation of a robust Zr film.
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1 January 2021
Research Article|
October 20 2020
Increased Filiform Corrosion Resistance Utilizing a Zirconium-Based Conversion Coating on an Al-Zn-Mg-Cu (AA7075-T6) Alloy as well as Selected Surface Treatments
C.F. Glover;
C.F. Glover
‡
*Center of Electrochemical Science and Engineering, Department of Materials Science and Engineering, University of Virginia, Charlottesville, Virginia 22904.
‡Corresponding author. E-mail: [email protected].
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M.L.C. Lim;
M.L.C. Lim
**Coatings Innovation Center, PPG, Allison Park, Pennsylvania 15101.
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J.R. Scully
J.R. Scully
*Center of Electrochemical Science and Engineering, Department of Materials Science and Engineering, University of Virginia, Charlottesville, Virginia 22904.
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‡Corresponding author. E-mail: [email protected].
Online ISSN: 1938-159X
Print ISSN: 0010-9312
© 2021, NACE International
2021
CORROSION (2021) 77 (1): 40–52.
Citation
C.F. Glover, M.L.C. Lim, J.R. Scully; Increased Filiform Corrosion Resistance Utilizing a Zirconium-Based Conversion Coating on an Al-Zn-Mg-Cu (AA7075-T6) Alloy as well as Selected Surface Treatments. CORROSION 1 January 2021; 77 (1): 40–52. https://doi.org/10.5006/3510
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