Corrosion control in hollow frame structures

Details Corrosion control in hollow frame structures Corrosion control in hollow frame structures

1999-07-30

2001-08-07

Tudor, Harold J. (Department: 3641)

Metal working

Method of mechanical manufacture

Combined manufacture including applying or shaping of fluent...

C029S527100, C264S046600

Statutory Invention Registration

active

H0001976

ABSTRACT:

BACKGROUND OF THE INVENTION
1. Field of the Invention
This invention pertains generally to corrosion prevention on the surfaces of hollow metal structures, more specifically the placement of a plastic polymer foam material in the box section frame rails of a vehicle to prevent corrosion from salt water collection or condensation in the frame rails.
2. Description of the Related Art
Corrosion control methods are generally based on the principle of shielding metal surfaces from their environment through the application of fluid or vapor impervious surface layers or coatings. These layers can be formed from a variety of materials including oils and greases, paints, inhibiting surface films, inactive metal overlays, or thickened oxide layers. Coating reliability depends on adhesion strength and resistance to ultraviolet light, heat, mechanical, or moisture induced degradation.
Hollow cavities are an intrinsic design feature of metallic structures. For vehicles located near salt water, particularly these cavities tend to collect salt laden moisture which in turn promotes accelerated corrosion of the internal surfaces. Corrosion damage inside structural voids results in premature component failures, significantly shortened lifetimes, and high repair or replacement costs. Internal cavity corrosion is commonly observed in automobiles and trucks causing some vehicles to be removed from service in less than one quarter of their design lifetimes and resulting in high repair costs. For example, the beach vehicles utilized by the Los Angeles County Parks and Harbors Department are retired from service after approximately two years even though they are rinsed with salt-free water daily.
The use of corrosion control treatments such as, paints, oils, or inhibiting coatings, for hollow components is often impracticable because of the fact that there is inadequate accessibility for application. Inaccessibility also reduces the effectiveness of cleaning and surface preparations necessary for corrosion product removal prior to the application of coatings. Application of coatings prior to assembly is not always feasible because of possible deleterious effects of welding on the coating. Providing drainage is only effective if all moisture and residue can be eliminated or the interior surfaces have a good corrosion preventive coating.
Plastic foams are widely used for building insulation and recreational boat hulls, as a material for flotation devices and as space fillers to avoid maintenance in steel sail boat construction. Although corrosion control is not the primary purpose for foam application in these applications, it has been noted that virtually no corrosion appears on foam encased steel spade rudders, even after prolonged periods of ocean sailing. In the early 1960s foam fillers were explored as a corrosion control method for automotive body applications. This concept was subsequently abandoned because of void and shrinkage problems associated with the foam formulations then available. It has been shown that stainless steel, galvanized iron, and copper appear to be protected by contact with some rigid insulating polyurethane foams, however for mild steel and aluminum the protection afforded is significantly less. It has been suggested that in the latter cases, detrimental species will leach from the foam under conditions of high humidity and condensation and support corrosion attack at the foam metal interface.
BRIEF SUMMARY OF THE INVENTION
The object of this invention is to provide a technique for preventing or inhibiting corrosion in the frame rails of vehicles subjected to a corrosive atmosphere where there can be already existing levels of internal surface degradation or corrosion.
This and other objectives are attained by placing an injected, foam-in-place, closed cell plastic polymer foam into an interior of a hollow metal structure, thereby preventing the ingress of foreign matter, such as dirt or water and corrosion species. The protective foam can be applied to unused equipment or equipment that is partially corroded during operation.


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Jones et al.; An Evaluation of Some Corrosion Control Techniques for Marine Corps HMMWV Frame Rails; NRL/MR/6321-98-8150; Mar. 31, 1998.
Paulette et al.; A Post-Design Corrosion Inhibition Technique for Marine Corps Light Vehicles; Proc. Tri-Service Corr. Conf.; Nov. 17-20, 1997 Brightsville Beach, NC.
Paulette et al.; Corrosion Control in Enclosed Areas of Military Ground Vehicles; Corrosion '98, Paper No. 607 pp. 1-11, Mar 24-27, 1998.
Paulette et al; Characteristics OP Rigid Polymer Foams as Related to Their Use for Corrosion Protection in Enclosed Metal Spaces; Corrosion '99 Paper No. 510, Apr. 25-30, 1999.
Paulette et al., Corrosion, May 1999, Closed Cell Polymer Foams for Corrosion Control in Confined Metal Spaces.

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