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For quick repairs, these epoxies begin to harden in 6 minutes or less.
Epoxies are the strongest and most weather- and chemical-resistant structural adhesives. They work especially well on metals.
To allow time to adjust and position parts, these epoxies remain workable for at least 90 minutes.
Assortments include eight different epoxies in 0.1-oz. packets to handle a variety of small jobs.
Even when used under water, these adhesives maintain their strength.
For invisible bond lines, these adhesives dry clear.
Toughened adhesives are blended with rubber particles for better impact resistance than standard epoxies. They form flexible, resilient bonds.
These machinable epoxies are mixed with steel, but won’t rust, so they can be used to repair cracks and threaded holes.
With excellent resistance to corrosive chemicals and salt water, these epoxies work in tough conditions.
Fasten hard-to-bond plastics, such as polypropylene and polyethylene, with these epoxies.
Bond most materials without the strong odor of other epoxy adhesives.
These self-extinguishing epoxies meet UL 94 V-0 for flame retardance.
For flexible bonds that resist cracking, these adhesives stay pliable.
An alternative to solder, these flexible, silver-filled adhesives accommodate joint movement. Use them to bond electrical components and repair circuits.
Mix these two-part surface fillers together to repair leaks and cracks as well as to rebuild rough spots in metal.
These rubber-filled epoxies have excellent wear and impact resistance. Use them to repair and rebuild surfaces such as pump liners, hoppers, and vibrating feeders.
For use in processing equipment that carries small particles less than 1/16" in diameter, these ceramic-filled epoxies rebuild and repair surfaces exposed to abrasion from particles, such as dust collectors, fan blades, and fan housings.
For use in processing equipment that carries large particles 1/16" in diameter and larger, these ceramic-filled epoxies rebuild and repair surfaces exposed to abrasion from particles, such as pump housings, chute linings, and hoppers.
Repair and rebuild metal surfaces that are exposed to heat. These surface fillers withstand temperatures over 450° F.
Chemicals will not affect these two-part epoxies. They repair cracked, worn, and damaged surfaces.
To stop leaks in metal tanks and equipment without draining the contents, heat the area with a heat gun or torch to melt the stick and form a permanent seal. The resulting patch can withstand pressure up to 600 psi.
Stop leaks in metal tanks and equipment without draining the contents.
A high silver content allows these surface fillers to conduct electricity and heat. Use them to fill gaps and rebuild missing material on electrical connections or to assemble new components.
Dispense ready-to-use conductive liquid to fill pits and small gaps on circuit board components.
These surface fillers can be used on vertical surfaces without sagging. They repair cracked, worn, and damaged surfaces.
Knead the epoxy-coated patch and resin together to make repairs to pipes, tanks, drums, and containers in the field.
Press these putty surface fillers in place to fill in holes, cracks, and dents. When exposed to sunlight or a UV lamp, they begin to harden immediately.
Mix these two-part epoxy surface fillers to create a strong repair in wet environments or underwater.
Also known as sloshing compounds, these surface fillers bond to rough, rusty surfaces in fuel tanks to repair leaks and prevent further corrosion.
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.
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.
Handle potted items within minutes—these potting compounds dry quickly when exposed to UV light. For added strength and durability, cure them with heat.
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.
Tough enough to be permanently submersed in seawater, these compounds protect sensitive electronics, such as circuit boards, semiconductors, and sensors in harsh environments.
Protect circuit boards and other electronics from fire and heat.
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.
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.
High humidity, harsh chemicals, water submersions, and salt are no match for these electronic coatings.
Use these coatings on tanks to create a low-friction lining that prevents bubble formation and turbulence in the liquids within.
Longer-lasting than antislip tape, these coatings contain grit to provide traction. They’re good for areas with pedestrian traffic.
Prevent the growth of harmful and odor-causing bacteria, mold, and fungus on HVAC system components and hardware. These coatings contain silver, which inhibits the growth of mildew, mold, and fungus.
Use these coatings on steel beams and pipes.
Touch up scratches and wear on powder-coated metal without a primer. Choose the color that matches your equipment—this paint matches some of the most common colors used in powder-coating applications.
Paint metal surfaces to stop rust from starting and prevent existing rust from spreading.
Seal leaks on vacuum systems and components.