Protective Film Formation on AA2024-T3 Aluminum Alloy by Leaching of Lithium Carbonate from an Organic Coating

Yanwen Liu,Peter Visser,Derek Graham,Gerard Smyth,Xiaorong Zhou,Michele Curioni,Johannes M C Mol,Herman Terryn,Simon R Gibbon,Teruo Hashimoto,Ali Gholinia,Stuart B Lyon,George E Thompson

doi:10.1149/2.0021603jes

Abstract

An investigation into corrosion inhibition properties of a primer coating containing lithium carbonate as corrosion inhibitive pigment for AA2024 aluminum alloy was conducted. It was found that, during neutral salt spray exposure, a protective film of about 0.2 to 1.5 μm thickness formed within the area where an artificial defect was introduced by scribing through the coating to the base alloy. This film showed a multilayered structure consisting of a relatively compact layer near the alloy substrate, a porous middle layer and a columnar outer layer. The thicknesses of the layers varied, as a consequence of the difference in the local concentration of lithium species leaching from the primer coating. The presence of the film in the scribed area significantly reduced corrosion of the alloy, with little consumption of the metal substrate within the scribed area during neutral salt spray exposure. Furthermore, the presence of the protective film resulted in a significant increase of impedance modulus, measured after the salt spray exposure.

Highlights

Protective Film Formation on AA2024-T3 Aluminum Alloy by Leaching of Lithium Carbonate from an Organic Coating
In 1987, lithium containing aluminum alloys were developed for use in aerospace applications; this trigged the need to study the role of the lithium cations when present in a salt solution.[47]
The scribed areas of the alloy substrate, where the coatings were removed over a width of 1 mm, are in the center with the coated alloy substrate evident on the left and right sides

Summary

Introduction

Protective Film Formation on AA2024-T3 Aluminum Alloy by Leaching of Lithium Carbonate from an Organic Coating. The composition and structure of the protective film.— The ultramicrotomed cross sections of the scribed area of the AA2024 alloy coated with the primer without lithium carbonate pigment before and after salt spray exposure were examined by transmission electron microscopy (TEM).

Results

Conclusion