An organically modified zirconate film as a corrosion-resistant treatment for aluminum 2024-T3

Current coating systems for aircraft corrosion protection are based on a tr aditional chromate surface treatment, primer, and topcoat. The Air Force is seeking environmentally benign corrosion-resistant surface treatments for aluminum-skinned aircraft as a replacement for environmentally hazardous su rface treatments involving chromates. Performance of replacement treatments must be able to satisfy the durability needed for dramatically extended li fetimes, be compatible with present and future environmental requirements, and be easily integrated into current primer/topcoat paint systems. Organically modified zirconate sol-gel films were investigated as an enviro nmentally compliant replacement for chromated surface treatments, which inc luded functionalized components to tailor the chemistry at both the aluminu m oxide substrate/surface treatment interface and the surface treatment/top coat interface. Sol-gel films were applied to aluminum 2024-T3 alloy coupon s, and the resulting film chemistry was investigated. FTIR was used to iden tify organic components in the film and X-ray photoelectron spectroscopy wa s used to investigate the interface chemistry. The result of the chemically modified sol-gel synthesis was a coating in which a concentration gradient was formed at the surface, which is discussed. The corrosion protection at tributes of these films was also studied and the electrochemical evaluation of sol-gel films will be discussed, both as stand-alone coatings and as pa rt of a full coating system. Organically modified sol-gels exhibited significantly better protection in terms of barrier properties in comparison to a typical chromate-based proce sses. The resulting data from evaluations of sol-gel produced coatings show promise towards the goal of producing a robust chemical interaction/bondin g of such corrosion-resistant coatings on the surface of aluminum-skinned a ircraft without the use of environmentally hazardous chromate agents. (C) 2 001 Elsevier Science B.V. All rights reserved.