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Dry to the touch in only 3 minutes, use this coating to protect circuit boards from moisture without delaying your process for drying.
These coatings require an ultraviolet curing lamp to reach full strength.
This coating is formulated for use in sensitive applications such as manufacturing semiconductors.
Clear enough to read through, this coating allows optimal light transmission for use with LEDs, solar cells, and fiber optics.
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 thermally conductive coating keeps electrical components cool by dissipating heat.
Shield circuit boards from flux, solder, conformal coatings, and high temperatures.
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.
No mixing required—these potting compounds come ready to apply.
Clear enough to read through, this UV-resistant potting compound allows optimal light transmission for use with LEDs, solar cells, and fiber optics.
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.
Clear enough to read through, these UV-resistant potting compounds allow optimal light transmission for use with LEDs, solar cells, and fiber optics.
This potting compound is formulated for use in sensitive applications such as manufacturing semiconductors.
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.
Protect sensitive electronic parts, enclosures, and prototypes from electromagnetic interference (EMI) with these coatings.
Used to insulate, create grips, and color-code components, these coatings resist high temperatures, light abrasion, and corrosion.
Use these coatings on tanks to create a low-friction lining that prevents bubble formation and turbulence in the liquids within.
Designed for use on hoppers, chutes, and pumps, these coatings protect against impact and abrasion. Thicker than paint, they resist UV, moisture, and chemicals.
Spray these thin coatings onto most types of metal, plastic, and glass for a washable coating that protects the underlying surface from scratches. They can be easily peeled off if removed within six months.
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.
Put a temporary dull finish on glossy surfaces. Wipe to remove.
Use these coatings in kitchens, furnace areas, and ships on plastic, metal, wood, and masonry.
Longer-lasting than antislip tape, these coatings contain grit to provide traction. They’re good for areas with pedestrian traffic.
Prepare foam pipe insulation for use outdoors. These coatings provide a clean, moisture-resistant finish that protects insulation from UV and ozone damage.
Use these coatings on steel beams and pipes.
The grit in these coatings creates traction on smooth metal parts, such as ladders, stairs, and tool handles, to prevent slipping.
These coatings are NSF registered H1 for incidental food contact. Designed to protect food-processing equipment from corrosion after washdowns, use them to seal metal surfaces, resist moisture, and lubricate moving parts between processes.
Reflect at least 85% of the sun's rays to reduce cooling costs. These coatings also restore and reinforce your roof by filling cracks and forming a water-resistant seal.
Create a washable writing surface.
Cover stains from smoke, water, and ink to prevent them from bleeding through your topcoat, extending the life of paint and coatings.
Use these primers in enclosed occupied areas, such as hospitals, schools, and offices. They cover stains and prepare your surface, extending the life of paint and coatings.
An alternative to jacketing, these coatings create a vapor barrier and protect from conditions outdoors. They are often used on irregularly shaped surfaces, such as fittings, flanges, and valves.
Prevent condensation from forming on refrigeration and air conditioning lines and cold‐water piping.
Protect and repair insulation with this cotton fiber and resin mesh.
Wrap pipes, tubing, and fittings to prevent condensation from forming. These strips are for use on copper, iron, and steel.
Form this putty around metal pipes and tubing or spread on a flat metal surface to stop heat from traveling to adjoining surfaces when soldering, welding, and brazing.
Spray on this clear gel to protect components and surfaces from heat damage and discoloration caused by soldering, welding, and brazing. It is nonstaining and won't leave a residue.
Lay, coat, and bond firebricks. Apply this mortar with a trowel.
Set and repair cast iron and steel furnaces, heaters, stoves, and boilers with this ready-to-use cement. It experiences minimal shrinkage for a permanent smokeproof and gasproof joint. Apply with a trowel or a spatula.
Renew heat resistance and performance of worn firebrick. Apply coating with a brush or spray on for a crack-free seal.
Often used around electrical outlets and plumbing openings, this foam insulation helps prevent flames and smoke from spreading between walls and floors.
Fill cracks with this single-use can of expanding foam insulation. It hardens enough to be cut in one hour and reaches full strength in 24 hours.
Expanding quickly to fill large voids, this foam insulation begins to harden in 3 minutes so you can cut, sand, and finish your surface.
This two-part expanding foam insulation meets ASTM standards for flame and smoke and covers large areas.
Seal and insulate cracks, gaps, and other hollow spaces with this insulation.
Apply these coatings to irregular shapes and large areas and reduce noise caused by vibration. Keep applying coats until desired noise reduction is achieved.
Prevent sound from passing through gaps and joints where walls, floors, and ceilings meet using these sealants to fill them.
To allow time to adjust and position parts, these epoxies remain workable for at least 90 minutes.
Epoxies are the strongest and most weather- and chemical-resistant structural adhesives. They work especially well on metals.
Toughened adhesives are blended with rubber particles for better impact resistance than standard epoxies. They form flexible, resilient bonds.
For quick repairs, these epoxies begin to harden in 6 minutes or less.
To simultaneously mix and dispense two-part adhesives, attach these mixer nozzles to a dual cartridge.