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Keep working when temperatures drop—these coatings can be applied in temperatures down to 20° F, when other coatings would fail. Thicker than polyurethane and paint, they protect against abrasion and resist moisture and chemicals.
Apply these coatings in temperatures down to 20° F, when other coatings would fail. They handle high humidity and have superior abrasion, impact, and UV resistance while providing great color and gloss retention.
Some of the thickest and most durable on the market, these coatings have excellent abrasion and impact resistance. Often used as a topcoat over epoxy coatings, they provide superior UV resistance and have great color and gloss retention.
Made with Viton® fluoroelastomer, use these coatings to create a flexible coating on rollers, heavy equipment, and anything else that’s exposed to corrosive chemicals or extreme temperatures.
Protect surfaces against chemical fumes and splashes. These coatings resist acids, alkalies, and inorganic salts. They’re highly durable and have excellent adhesion.
Put a temporary dull finish on glossy surfaces. Wipe to remove.
These provide the highest traction and impact resistance of our antislip coatings. Longer-lasting than antislip tape, these coatings contain grit to provide traction.
Spray these coatings on glass to create a clear, scratch-resistant surface that repels oil and water. They’re also known as oleophobic and hydrophobic coatings.
Use these coatings in kitchens, furnace areas, and ships on plastic, metal, wood, and masonry.
These coatings provide chemical, corrosion, and impact resistance on grit-blasted concrete and primed steel in immersion, underground, and waste-water treatment applications.
Use these coatings on steel beams and pipes.
These flexible, slip-resistant silicone coatings resist chemicals, block UV light, and encapsulate lead paint. They withstand temperatures up to 320° F.
These coatings are often used in food-processing areas. They form a tacky film that provides long-lasting protection against rust and corrosion. Remove with an alkaline cleaner.
Protect metal parts from corrosion. Also known as rust-inhibiting film, these coatings can be removed with a simple degreaser or mineral spirits.
Cover sharp edges, corners, and weld seams with these thick epoxy coatings for protection against cuts and snags.
Apply these coatings directly to rust to prevent it from spreading and to stop new rust from forming. Often used on containers, trailers, and in marine restoration, they create a durable, impact-resistant surface that permanently stops rust.
Make guardrails, poles, and other safety equipment stand out in low-light environments.
Seal freshly finished concrete to prevent it from drying too quickly during the curing process. These coatings also protect against mild chemicals, salts, soaps, and detergents.
Designed for marine environments, these coatings stand up to harsh chemicals, such as sulfuric acid, citric acid, and diesel fuel. They have excellent abrasion, impact, and UV resistance, as well as low hardening temperatures.
Apply these wear-resistant coatings to wood to protect from scuffs, water, and oil damage.
Use these coatings on structural lumber, decking, and wood shingles.
These silicone-based coatings renew leather and vinyl surfaces and protect against UV damage, dirt, and ozone.
Also known as castor oil, use these to lubricate and preserve leather.
Protect clothing, furniture, and other fabric with these oil- and water-repellent coatings. Also known as oleophobic and hydrophobic coatings, they work into a fabric’s individual fibers to repel liquid and grease.
These coatings reflect up to 60% of the sun's rays. They also restore and reinforce your roof by forming a water-resistant seal.
Made from silicone, these coatings are more durable than acrylic coatings for roofs and have better resistance to pooling water. They reflect up to 90% of the sun's rays to reduce cooling costs.
Even in furnace-like heat, these coatings protect your electronics from moisture, dust, and static. They withstand temperatures up to 270° higher than standard silicone coatings while remaining flexible enough to not crack and peel from vibration.
Hide proprietary information on electrical components while also protecting them from moisture, dust, and static. All it takes is a single thin layer of these black coatings.
Dry to the touch in only 3 minutes, use this coating to protect circuit boards from moisture without delaying your process for drying.
This thermally conductive coating keeps electrical components cool by dissipating heat.
High humidity, harsh chemicals, water submersions, and salt are no match for these electronic coatings.
Thinner than potting compounds, these rigid and wear-resistant coatings flow easily into small spaces between electrical components. Use them to secure and insulate hardware on printed circuit boards.
This coating is formulated for use in sensitive applications such as manufacturing semiconductors.
These coatings require an ultraviolet curing lamp to reach full strength.
Protect sensitive electronic parts, enclosures, and prototypes from electromagnetic interference (EMI) and radio frequency interference (RFI) with these coatings.
Coat electronics for durability in tough conditions while blocking EMI/RFI signals.
Formulated to draw heat away from sensitive electronic components, these potting compounds have higher thermal conductivity than standard potting compounds.
Change the mix ratio of these heat-transfer potting compounds to achieve the right hardness for your application.
Handle potted items within minutes—these potting compounds dry quickly when exposed to UV light. For added strength and durability, cure them with heat.
Protect circuit boards and other electronics where high heat is a concern but you don’t need to transfer that heat elsewhere. These compounds are a good middle ground between standard epoxy compounds and heat-transfer compounds.
Tough enough to be permanently submersed in seawater, these compounds protect sensitive electronics, such as circuit boards, semiconductors, and sensors in harsh environments.
Clear enough to read through, these UV-resistant potting compounds allow optimal light transmission for use with LEDs, solar cells, and fiber optics.
Protect circuit boards and other electronics from fire and heat.
Make repairs or changes to electrical components after they’ve been potted. While most compounds are permanent, these form a gel that bonds to itself, so you can peel it off without damaging your equipment.
These compounds dry quickly when exposed to UV light allowing you to handle the potted items sooner.
In just 20 seconds under a UV light, these urethane compounds form into a strong protective layer on electrical components.
The strongest of the potting compounds, epoxies are rigid and wear resistant. They have excellent chemical and moisture resistance, withstand a wide range of temperatures, and provide excellent electrical insulation.
No mixing required—these potting compounds come ready to apply.
Combine the flexibility of silicone with the durability of standard epoxy—these compounds are great for protecting sensitive electronics that need to flex or expand and contract.
Urethanes withstand a wide range of temperatures and are the best choice for cold-temperature applications. They have excellent flexibility, good chemical and moisture resistance, and provide good electrical insulation.
From shore to sea floor, these potting compounds are formulated for permanent submersion in water—even salt water. Use them to protect circuits and splices in pumps and underwater lighting, as well as other underwater electronics from corrosion and chemicals.
Hide blemishes and protrusions on shingles and flashing. This paint matches common roofing material.
Spray this paint onto trees, logs, or cut wood—even in the rain—to create a bright mark that can be seen at a distance.
Highly abrasion resistant, use this paint in high-traffic areas. It’s good for marking traffic lanes, parking lots, and factory floors.
Make a temporary repair to cracks in any flat roof. These patching compounds are a powder that forms a thick gel in minutes when poured directly into standing water and rain.
These patching compounds are the most flexible and watertight we offer.
Used for brick, block, and stone laying as well as for repairing masonry, mortar mixes consist of fine sand and masonry cement.
Cut rope to the length you need, pack it in cracks up to 1" wide, and heat with a propane torch.
Spread patching compounds in dry, wet, and even water-filled holes.
Used on ceramic, concrete, and stone floor and wall tiles, grout consists of fine sand, masonry cement, and coloring.
Repair sidewalks and factory floors in areas with heavy pedestrian traffic. They can also be used to fill minor depressions and cracks.
Patch concrete floors, stairs, and walls with these compounds.
For use when thickness will be less than 2", sand mixes consist of cement and sand.
Use these two-part compounds to patch concrete floors, stairs, and walls in cold environments, such as freezers. At room temperature, they cure faster than any of our other concrete patching compounds.
For use when thickness will be more than 2", concrete mixes consist of cement, sand, and gravel.
Fill cracks in horizontal, vertical, and overhead concrete surfaces.
Stop slow-flowing and weeping leaks in concrete. Also known as hydraulic cement, these crack fillers begin to harden in three to five minutes to create a permanent fix that won't shrink.
Stop active leaks of up to 50 gallons per minute in concrete, brick, and stone. These crack fillers begin to harden within seconds to create a permanent fix that won't shrink.
These non-sagging sealants will not drip while hardening on vertical and overhead surfaces.
Press this pliable rope into place to hold glass in window frames and seal leaks.
Clear enough to read through, this UV-resistant sealant allows optimal light transmission for use with solar cells and fiber optics.
Apply these sealants in cold temperatures, on wet surfaces, and even through running water.
Thinner than non-sagging sealants, these flow easily into cracks and have a smooth finish.
These sealants don't degrade in sunlight.
Also known as glazing compounds, use these sealants to install glass in aluminum, steel, and wood framing.
Designed for use on ovens and kilns, these sealants form a durable, rock-hard seal after firing.
Repair equipment and vehicle windows with these sealants that are rated to withstand impact within three hours of application.
Make seals that support glass under heavy loads in equipment and buildings.
Thinner than non-sag sealants, these flow easily into cracks and have a smooth finish.
Seal joints and gaps in concrete.
The textured finish matches concrete surfaces.
Fix roof leaks in cold and wet conditions. These sealants can even be applied underwater.
These sealants are non-sagging, so they won't drip from vertical and overhead surfaces.
Create a high-contrast background for magnetic particles to make flaws easier to spot during inspections.
This caulk forms a long-lasting, flexible, watertight seal.