Fabric (woven – knitted – or nonwoven textile or cloth – etc.) – Coated or impregnated woven – knit – or nonwoven fabric which... – Coating or impregnation specified as porous or permeable to...
Reexamination Certificate
2002-08-30
2004-12-21
Ruddock, Ula C. (Department: 1771)
Fabric (woven, knitted, or nonwoven textile or cloth, etc.)
Coated or impregnated woven, knit, or nonwoven fabric which...
Coating or impregnation specified as porous or permeable to...
C442S086000, C442S268000, C442S289000, C442S417000
Reexamination Certificate
active
06833334
ABSTRACT:
FIELD OF THE INVENTION
The present invention generally relates to the field of covers for protecting materials from environmental elements. More particularly, the present invention is directed to a flexible cover that actively inhibits the corrosion of a metallic object on which the cover is placed.
BACKGROUND OF THE INVENTION
Corrosion and corrosion mitigation have become increasingly important for economic and safety reasons. Based on estimates made in the mid 1990's, overall costs attributable to corrosion account for over $100 billion a year in the United States alone. These costs typically account for only the direct costs of corrosion and do not include the associated indirect costs, such as safety, plant downtime, loss of product, contamination and over-design.
Corrosion is defined as the destructive result between a metal alloy and its environment. Nearly every metallic corrosion process involves the transfer of electronic charge in aqueous solution, and most corrosion reactions take place in the presence of water in either liquid or condensed vapor phases and also in high humidity.
Corrosion is particularly a problem in marine environments, such as shipboard, off-shore drilling rigs, coastal regions and the like, where seawater enhances corrosion reactions due to increased ion transport, pH effects and elevated dissolved oxygen levels in turn enhance levels of hydrogen ions. Corrosion reactions are further accelerated in marine environments by contaminants, such as chloride ions, present in seawater. Corrosion damage to equipment stored and used in marine environments is a tremendous problem, impacting maintenance costs, availability, repair and reliability.
Equipment stored, for example, onboard a ship or in coastal regions, is often stored in protective storage systems that have proved to be less than optimally effective. At best, such equipment is covered with waterproof tarpaulins, although often, especially for shipboard equipment, it is not stored properly and is directly exposed to a marine environment, which leads to rapid corrosion. Even when equipment is covered by waterproof tarpaulins, seawater still penetrates through and/or around the tarpaulins into the protected spaces where it collects and corrodes the underlying equipment. Also, conventional storage systems can be cumbersome to use and maintain, and are often avoided. As a result, corrosion continues to be a significant and costly problem, requiring many hours of rust removal, painting and repair that lead to premature equipment replacement.
FIG. 1
shows a conventional waterproof cover
20
used to protect metallic objects, such as metallic block
22
shown resting on a surface
24
, from moisture, such as rain, sea spray, dew and the like. Cover
20
has an outer surface
26
, an inner surface
28
and an area
30
defined by a peripheral edge
32
. Cover
20
is shown covering block
22
in a typical manner, wherein a micro-environment, is generally defined by the space enclosed by cover
20
. The micro-environment comprises a number of interior regions, such as regions
34
, located between cover
20
and block
22
.
Generally, prior art covers comprise at least one liquid-impermeable layer made of, for example, a tightly-woven polymer fabric. More complex prior art covers may include one or more additional layers that provide the inner surface with a non-abrasive texture to minimize mechanical damage to the object covered. Other prior art covers are made of vapor-permeable materials, such as expanded polytetrafluoroethylene or the like.
Interior regions
34
generally never have a moisture content less than that of the ambient environment. If the moisture content of the ambient environment rises, the moisture content of regions
34
also rises due to the inflow of moisture (illustrated by arrow
36
) through gaps between cover
20
and surface
24
at peripheral edges
32
. Eventually, the moisture content of the ambient environment
38
and regions
34
equalize. Once the additional moisture is in the micro-environment, it can become trapped, as illustrated by arrows
40
. Moisture levels can quickly become elevated and the air saturated. In such a case, condensation could occur on the block
22
. Because the moisture content of interior regions
34
never falls below that of ambient environment
38
, prior art covers are not very effective in high moisture environments, such as marine and high-humidity environments. Moreover, once moisture enters the micro-environment, it can take a long time to dissipate, if at all.
SUMMARY OF THE INVENTION
The present invention is directed to a cover for inhibiting corrosion of a metallic object. The cover includes a first layer having a first face and a second face. The first layer comprises a super-absorbent material adapted to absorb and store moisture. A second layer is located adjacent the first face of the first layer. The second layer is liquid permeable. A third layer is located adjacent the second fare of the first layer. The third layer is liquid-impermeable. A radar-influencing layer is located within or adjacent at least one of the first layer, second layer and third layer. The radar-influencing layer comprises a radar-influencing material.
In another aspect, the cover of the present invention includes a first layer having a first face and a second face. The first layer comprises a super-absorbent material adapted to absorb and store moisture. A second layer is located adjacent the first face of the first layer. The second layer is liquid permeable. A third layer is located adjacent the second face of the first layer. The third layer is liquid-impermeable. A vapor corrosion inhibitor layer is located within or adjacent at least one of the first layer, second layer and third layer. The vapor corrosion inhibitor layer comprises a vapor corrosion inhibitor.
In yet another aspect, the cover of the present invention includes a panel having a first face, a second face and a peripheral edge. The panel includes a first layer having a first face and a second face. The first layer comprises a super-absorbent material adapted to absorb and store moisture. A second layer is located adjacent the first face of the first layer. The second layer is liquid permeable. A third layer is located adjacent the second face of the first layer. The third layer is liquid-impermeable. The panel includes a fastening means located adjacent the peripheral edge adapted to removably fasten said panel to a similar panel.
The invention is also directed to a method of inhibiting corrosion on a metallic object. First, a cover is provided. The cover includes a first layer having a first face and a second face. The first layer comprises a super-absorbent material adapted to absorb and store moisture. A second layer is located adjacent the first face of the first layer. The second layer is liquid permeable. A third layer is located adjacent the second face of the first layer. The third layer is liquid-impermeable. Next, at least a portion of the metal object is covered with the cover such that the second layer faces the object.
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Elkouh Nabil A.
Pilvelait Bruce R.
Befumo Jenna-Leigh
Creare Inc.
Downs Rachlin & Martin PLLC
Ruddock Ula C.
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