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Composite coatings are a class of materials that are described as fiber-reinforced polymers (FRP) that consist of extremely strong tensile fibers saturated in a binding resin. From the original development as tank bottom lining materials designed to handle surface movement and corrosion, the applications for composite coatings have broadened and moved into the mainstream, with industry-accepted design codes written around their uses and applications
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Composite coatings are a class of materials that are described as fiber-reinforced polymers (FRP) that consist of extremely strong tensile fibers saturated in a binding resin. From the original development as tank bottom lining materials designed to handle surface movement and corrosion, the applications for composite coatings have broadened and moved into the mainstream, with industry-accepted design codes written around their uses and applications.
FRP pipe made of spiral-wound high strength glass fiber filaments and an aromatic amine-cured epoxy resin. Two 90-day exposure tests. Water penetration in the FRP was measured in terms of weight and volume gain as a function of exposure time.
HISTORICAL DOCUMENT. Procedures to design, apply, and inspect fiberglass-reinforced plastic (FRP) linings on the internal bottoms of aboveground storage tanks (ASTs) in the petroleum/petrochemical industry and in other service.
Fiber-reinforced polymer (FRP) strengthening has become a common technique used by many State Departments of Transportation (DOTs) around the country to address deficiencies with bridge structures. Carbon fiber strengthening systems are routinely used to strengthen pier caps, pier columns, concrete girders, impact damaged girders, and now steel structures. The paper will introduce the audience to the materials and the unique characteristics that make them so prized for repair and strengthening applications in civil infrastructure applications. Their use in bridge projects will be highlighted.