A method for repairing small surface imperfections on a vehicle body is provided that includes the application of an uncured layer to a thickness of up to 1.02 mm of a composition inclusive of a polyester resin, an acrylated urethane resin, a defoamer, and a particulate filler to the vehicle body or a cured putty thereon. The uncured layer is then exposed to actinic radiation to induce cure of the uncured layer to form a coating to fill the small surface imperfection on the vehicle body. A one component, UV-cured putty material for repairing small surface imperfections is also provides inclusive of a polyester resin, an acrylated urethane oligomer or polymer, a defoamer, a photoinitiator, and a particulate filler. The composition has an uncured viscosity of between 9,000 and 13,000 centiPoise.

A curable material is disclosed for simultaneous filling of tolerances and for sealing of components to be bonded in aircraft construction.

The curable material can be made of fiber-reinforced plastic (CFRP). The curable material enables simultaneous structural adhesive bonding. The curable material can be based on two-component epoxy resin.

Sealants and caulks (i.e., polymeric fillers) disclosed herein are polymeric fillers that comprises a polymeric material composition and one or more lipolytic enzymes dispersed within the polymeric material composition. In preferred embodiments, the polymeric material composition is an acrylic latex sealant such as that in the form of a caulk and the one or more lipolytic enzymes comprises a lipase such as, preferably, a triacylglycerol lipase. Advantageously, the one or more lipolytic enzymes of such sealants and caulks degrades lipid-containing contaminants and resulting lipid-containing stains that contain lipids. The degradation is a result of the ability of a lipolytic enzyme to catalyze a reaction on a lipid-containing substance (i.e., a substrate) to hydrolyze or move (e.g., intra-esterification) ester bonds of such lipid-containing substance. This lipid-degradation functionality at least partially inhibits the growth of such mold and mildew resulting from exposure to lipid-containing contaminants.

Sealants and caulks (i.e., polymeric fillers) disclosed herein are polymeric fillers that comprises a polymeric material composition and one or more lipolytic enzymes dispersed within the polymeric material composition. In preferred embodiments, the polymeric material composition is an acrylic latex sealant such as that in the form of a caulk and the one or more lipolytic enzymes comprises a lipase such as, preferably, a triacylglycerol lipase. Advantageously, the one or more lipolytic enzymes of such sealants and caulks degrades lipid-containing contaminants and resulting lipid-containing stains that contain lipids. The degradation is a result of the ability of a lipolytic enzyme to catalyze a reaction on a lipid-containing substance (i.e., a substrate) to hydrolyze or move (e.g., intra-esterification) ester bonds of such lipid-containing substance. This lipid-degradation functionality at least partially inhibits the growth of such mold and mildew resulting from exposure to lipid-containing contaminants.

A liquid coating composition of matter for application to wooden barrels or casks used in distilling, the composition of matter includes a polymer vulcanized with a silane crosslinking agent that is oxime-functional, acetoxy-functional, or alkoxy-functional, an OH-terminated polysiloxane that exhibits moisture curing, condensation reactions when in the presence of water vapors and silane crosslinkers, a low to medium molecular weight polysiloxane that exhibits low-permeance after curing via moisture-cure, condensation reaction, a transition metal catalyst that provides a reaction crosslink density that allows for minimal transport of ethanol vapors and water vapors after curing, a second transition metal catalyst that provides a reaction crosslink density with minimal impact on the rate of oxygen gas transport rate after curing, and inorganic polymers with a siloxane backbone that exhibits no leaching, migration or notable reaction with a liquid alcohol and water mixture upon curing.

A liquid coating composition of matter for application to wooden barrels or casks used in distilling, the composition of matter includes a polymer vulcanized with a silane crosslinking agent that is oxime-functional, acetoxy-functional, or alkoxy-functional, an OH-terminated polysiloxane that exhibits moisture curing, condensation reactions when in the presence of water vapors and silane crosslinkers, a low to medium molecular weight polysiloxane that exhibits low-permeance after curing via moisture-cure, condensation reaction, a transition metal catalyst that provides a reaction crosslink density that allows for minimal transport of ethanol vapors and water vapors after curing, a second transition metal catalyst that provides a reaction crosslink density with minimal impact on the rate of oxygen gas transport rate after curing, and inorganic polymers with a siloxane backbone that exhibits no leaching, migration or notable reaction with a liquid alcohol and water mixture upon curing.

A liquid coating composition of matter for application to wooden barrels or casks used in distilling, the composition of matter includes a polymer vulcanized with a silane crosslinking agent that is oxime-functional, acetoxy-functional, or alkoxy-functional, an OH-terminated polysiloxane that exhibits moisture curing, condensation reactions when in the presence of water vapors and silane crosslinkers, a low to medium molecular weight polysiloxane that exhibits low-permeance after curing via moisture-cure, condensation reaction, a transition metal catalyst that provides a reaction crosslink density that allows for minimal transport of ethanol vapors and water vapors after curing, a second transition metal catalyst that provides a reaction crosslink density with minimal impact on the rate of oxygen gas transport rate after curing, and inorganic polymers with a siloxane backbone that exhibits no leaching, migration or notable reaction with a liquid alcohol and water mixture upon curing.

Described is a putty composition for wind turbine blades. The putty composition includes a) a base composition that includes i) one or more amino functional resin including one or more polyaspartic ester and/or one or more polyetheraspartic ester, and ii) one or more hydroxy functional resin including one or more hydroxy functional polymer and/or one or more castor oil based polyol; and b) a curing agent comprising one or more polyisocyanates; wherein the one or more hydroxy functional resin ii) constitutes 1-10 parts.

A method of chemically stripping a surface is described. The method comprises applying a sealant to at least a portion of a surface of an object, the surface comprising a coating and one or more ingression points, the sealant filling the one or more ingression points to form a sealed surface. The method further comprises applying a stripping agent to the sealed surface to remove at least a portion of the coating to form a stripped surface.

A method of chemically stripping a surface is described. The method comprises applying a sealant to at least a portion of a surface of an object, the surface comprising a coating and one or more ingression points, the sealant filling the one or more ingression points to form a sealed surface. The method further comprises applying a stripping agent to the sealed surface to remove at least a portion of the coating to form a stripped surface.