Anti-corrosion and low friction coating

Abstract

The anti-corrosion coating material contains corrosion inhibiting inorganic constituents, or a combination of inorganic and organic corrosion inhibiting constituents, suspended in a polymeric resin. The corrosion resistant composition includes a salt of inorganic constituents, and alkaline Poly(3-ammoniumpropylalkoxysiloxane)Carboxylic Acid Salt (PCAS) as a corrosion inhibitor, suspended in a polymeric resin remainder. The coating material may be applied to metal parts but not limited to aircraft fasteners, such as aircraft fastener parts, including nuts and bolts, screws, rivets, and sleeved systems.

Description

CROSS-REFERENCES TO RELATED APPLICATIONS[0001]This application is based upon and claims priority from U.S. Provisional Application No. 61 / 160,176, filed Mar. 13, 2009, incorporated by reference in its entirety.BACKGROUND[0002]1. Field[0003]This relates to protective coatings and to fasteners and other surfaces coated by them, for example to such coatings and fasteners capable of protecting one or both of two dissimilar metals assembled together, from corrosion or deterioration, for example structural corrosion or deterioration, including for example such coatings containing pigments, for example metal pigments, and fasteners and other components coated therewith.[0004]The coatings are applicable to use with a number of different metals and combinations of metals. They are especially applicable to the coating of titanium. A particular application relates to titanium fasteners commonly used in the aluminum structures of aircraft and the like. They are useful to protect one or both of ...

AI Technical Summary

Benefits of technology

[0011]Briefly, and in general terms, the present inventions provide for a corrosion resistant coating to be applied to aircraft fasteners and other components and surfaces that does not contain chromate, but which is considered to be as effective in preventing corrosion as comparable chromate containing coatings.

[0015]The use of the alkaline PCAS as a corrosion inhibitor in the coating composition results in passive corrosion resistance performance believed to meet the requirements of all previous coating compositions. In addition, the frictional characteristic of the coating composition has been enhanced by the addition of PCAS, and the use of the coating composition of the inventions significantly reduces galling in general, according to tests performed on fasteners coated with the composition of the inventions. In addition, use of the alkaline PCAS as a corrosion inhibitor in the coating composition along with an inorganic salt component, such as a zinc phosphate, for example, that will result in a metal hydroxide layer, such as zinc hydroxide, that acts as an active barrier at the junction of the fastener and the aluminum member. It has been found that the organic molecule of the alkaline PCAS orients itself with the fastener via surface binding due to active amines in the molecule. In this manner, it has been found that the hydrophobic carbon backbone of the molecule orients itself away from the metallic surface of the fastener, so that when the fastener is placed in an aluminum framing, this orientation works in conjunction with the formation of the zinc hydroxide units and develops a hydrophobic layer that resists the permeation of water molecules so that the effect of galvanic corrosion is lessened.

[0016]Aircraft parts coated with the coating composition according to the inventions have good lubricity and relatively low friction, so that the coating composition is especially suited for interference fit fasteners, threaded systems, and other types of fastener systems. The coating material furthermore is especially adaptable to the application to the metal, such as a fastener part, such as nuts and bolts, screws, rivets, and sleeved systems, for example. The coating material is also desirable for use in coating other types of parts, such as bronze or stainless steel bushes, stainless steel pins, washers or parts which are subject to galling, seizing or fretting issues.

Problems solved by technology

It is well-known that galvanic action due to electro-chemical coupling effects present in such assemblies often results in undesirable corrosion of the aluminum or titanium elements, or both.

It is known that aluminum has a tendency for galvanically induced corrosive attack in contact with titanium, if wet.

Furthermore, the corrosion susceptibility of these structures is increased by harsh saline or acidic environments frequently encountered.

When the fasteners are of the interference-fit type such as commonly used in the aircraft industry, the problem is further compounded by the fact that a coating on a fastener must be tough and adherent enough to withstand the force fitting operation.

The several types of coatings and corrosion inhibitors heretofore used have presented problems such as failing to give complete protection, inadequate toughness or adherence, and excessive expense.

Even those most widely used in the aircraft industry, namely cadmium plating, organic and inorganic coatings, and sealants have been less than completely satisfactory.

The organic and inorganic type coatings typically act as a passive, physical barrier against salt, moisture and the like without providing substantial corrosion protection.

Cadmium plated fasteners and wet installation approaches, although finding considerable success in inhibiting corrosion of aluminum structures, have other undesirable limitations, such as an embrittling effect on titanium and high strength steel in direct contact with cadmium.

Wet installation imposes undesirably high cost of assembly and presents production adaptability problems and the like.

This reaction will typically result in a buildup of an oxide layer on the surface of aluminum with which a fastener made of a corrosion resistant metal alloy, such as titanium for example, is in contact.

However, such chromates can be considered toxic, and that the continued usage of chromates in corrosion inhibiting coatings may represent health and environment hazards.

Galling in the form of surface damage of mechanically locked internally threaded fasteners used in the aerospace industry is also a common problem.

Images