Turn the dial to control the percentage of time that these heaters cycle on, from 5% to 100%. Commonly used to thaw pipes, prevent valves from freezing, and heat beakers and flasks in labs, they're good for temporary and occasional use where rapid heating is required but precise temperature control is not.

Rated for a maximum heat output of 900° F, these heaters are often used for thawing frozen pipes and rapid spot heating.

With a cable that supplies the same wattage along the entire length, these heaters remain consistent regardless of the surrounding temperature. All require a temperature switch or controller to regulate heat output.

Also known as self-regulating heat cable, these heaters automatically adjust heat output at different points along their length to account for differences in environmental temperature.

Keep the liquid inside your hose from freezing, maintain your liquid’s viscosity, and prevent condensation in chilly environments.

Less than 0.015″ thick and highly conformable, these heat sheets warm components in tight spaces within complex designs.

An adjustable thermostat senses the container’s surface temperature to automatically control heat output.

FM approved, these heat sheets are safe for use in areas with infrequent exposure, such as from a spill or a ventilation system failure, to flammable gases, liquids, and dust.

For applications requiring high heat over long periods of time, these aluminized steel heaters warm up faster and are more durable than silicone rubber heaters.

Heaters are fiberglass-reinforced silicone rubber.

These ETL-listed heaters keep containers warm in areas where hazardous material is present. Also known as heat blankets, they surround drums and totes to heat them up quickly.

Strap these heaters around cylinders to keep gas flowing when the temperature drops. Also known as heat blankets, they heat cylinders from the outside, safely warming liquefied gas enough so that it can vaporize.

To prevent hot spots that can damage heat-sensitive materials such as adhesives, sealants, and food, these heaters warm the air around containers without touching them.

Often used with extrusion, injection, and blow-molding machinery, these heaters clamp around nozzles to keep material warm for consistent discharge.

Temporarily store and warm items—these enclosures heat the space inside them.

This sleeving withstands temperatures over 1000°F, such as in refineries.

Unlike fiberglass and silica, this sleeving won't irritate skin, so it's easier to handle. It has a temperature rating of 1100° F or higher.

Protect wire, cable, and hose from heat radiating off hot objects, such as molten metal. Coated in aluminized PET plastic, also known as Mylar, this sleeving reflects most heat without letting it pass through, so it can handle intermittent radiant heat up to 2000° F.

Made from thicker and denser fiberglass than standard spark-resistant sleeving, this sleeving is more abrasion resistant and provides better insulation. The silicone rubber coating protects against sparks and molten metal splash.

This sleeving withstands temperatures up to 390°F and is often used to insulate connections in transformers and relays. It prevents electricity and heat from dissipating from wire and cable.

Use this PTFE sleeving in applications where temperatures reach up to 500° F.

With excellent torsional strength, this sleeving withstands the extreme twisting found in robotics. It has impact strength similar to steel yet is lighter than most other sleeving materials. Stretch it to fit over items for easy installation; it tightens around its contents for a secure fit.

Silicone rubber coats this fiberglass sleeving to shed sparks and molten metal splash. It has a slit along the entire length so it easily wraps around wire, cable, and hose without disconnecting them.

Often used in robotics and other automated applications, this sleeving adds an extra layer of protection and insulation to cable and hose carriers.

This sleeving reflects heat away from contents and withstands temperatures up to 900°F. The corrugated construction gives it impact and abrasion resistance similar to conduit, but with more flexibility.

Made of PTFE, this sleeving has excellent resistance to chemicals and acids. A reusable alternative to tape and cable ties, it allows you to route wire and cable between the spirals.

Superior in strength and durability, these thin strips insulate as well as protect personnel from accidental contact with hot pipes. Use for exhaust, hot water, and process pipes.

These insulation tubes and sheets meet ASTM E84 standards for flame and smoke.

Soft and easy to install, this insulation restricts absorption of water, air, and gas. It is often used on cold and hot water lines and refrigeration lines.

Even at high temperatures, these tubes remain flexible to stretch over components without tearing. They restrict absorption of water, air, and gas and are typically used on hot and cold water lines and electrical components.

Melamine has a lightweight construction that allows quick and easy installation. Use on cold and hot water piping and with refrigeration systems.

These rigid, lightweight melamine foam tubes are wrapped in an ISO Class 5 and Fed. Spec. Class 100 clean room jacket that is suitable for sanitary and washdown applications. They’re typically used on cold and hot water piping and with refrigeration systems.

Able to withstand temperatures as low as -290° F, these super-thin, lightweight sheets are made of fiber-reinforced silica aerogel that can flex into tight spaces other insulation can't. Use in process piping and power-generating applications.

Wrap pipes, tubing, and fittings to prevent condensation from forming. These strips are for use on copper, iron, and steel.

Prevent condensation from forming on refrigeration and air conditioning lines and cold‐water piping.

Similar to plaster, these adhesive-impregnated sheets become moldable when water is added and harden as they dry. They can be used in sealing, insulating, and covering applications.

The PTFE coating makes these fiberglass sheets nonstick and chemical resistant.

These sheets can be grounded to reduce static electricity.

Resistant to sparks and molten metal spatter, this fabric withstands temperatures up to 1000° F. It's often used for curtains, blankets, and gaskets.

Often used to create curtains and screens, this fabric has an aluminum foil backing that deflects radiant heat.

In addition to being oil resistant, this fabric protects against molten metal spatter when used vertically. Use as a heat shield or a welding curtain.

Even when exposed for as long as 2 minutes to temperatures up to 2600° F, these sheets won't ignite or melt.

Commonly used as curtains, covers, insulation, and splash shields, these sheets protect against welding spatter.

Lighter than Kevlar, Nomex is often used for temperature-resistant garments.

This Nomex aramid felt withstands temperatures three times as high as wool felt. It is chemical resistant and often used as insulation.

Seal foil-jacketed insulation as well as air-conditioning and refrigeration systems with this conformable aluminum tape.

Use this tape for a watertight bond on gutters, roofing membranes, and other building materials.

Aluminum foil is laminated to a tough fiberglass cloth to form a high-strength, reflective tape that resists temperatures up to 500° F. Use it for flame-spray masking and wire harness heat shielding.

Made of polyester fabric with a copper/nickel filler, this tape is highly conductive throughout, including the adhesive.

This polyester tape has a woven mesh edge that conducts electricity. Use it to shield cables and electronic components from EMI (electromagnetic interference).