Made of polyurethane, these belts are chemical and abrasion resistant.

A nylon core allows this belting to handle higher speeds than other leather flat belting.

Also known as side-stock belting.

A narrow belt profile transmits up to three times the horsepower of standard cogged V-belts for use on heavy duty drives with shock loads.

More flexible than smooth V-belts, these have notches that allow them to bend around small-diameter pulleys and accommodate twists and turns on curved drives.

Ensure even load distribution on drives with multiple belts.

An extremely thin profile gives these belts the flexibility to bend around small-diameter pulleys.

Twist the tabbed links together to form a belt. Because it’s made of individual links, this belting allows you to change your belt length without dismantling your drive.

This belting limits static electricity discharge for hazardous applications such as fuel transfer and solar-cell manufacturing.

A range of specially shaped tops carry materials in conveying applications.

HTD (high torque drive) timing belts have a curved tooth shape that provides higher strength than trapezoidal teeth. Belts are neoprene with fiberglass reinforcement for quiet operation.

Strong enough to replace roller chain, these timing belts combine the high strength of a curved tooth with high-strength carbon fiber reinforcement.

Belts are abrasion-resistant urethane, so they don’t create dust while they run. They have steel reinforcement, which has very high strength, low stretch, and excellent shock resistance.

Belts combine neoprene with fiberglass reinforcement for quiet operation with high strength.

Urethane has excellent abrasion resistance, so these belts don’t create dust while they run. Belts have steel reinforcement, which has very high strength, low stretch, and excellent shock resistance.

Resisting temperatures up to 400° F, silicone can take the heat. Belts have Kevlar reinforcement, which has very high strength, low stretch, and excellent shock resistance.

Drive linear motion while maintaining a clean environment—urethane has excellent abrasion resistance so these belts don’t create dust while they run. They have Kevlar reinforcement, which has very high strength, low stretch, and excellent shock resistance.

Use quiet-running neoprene with high-strength fiberglass reinforcement in your linear motion drive system.

Used to drive small-scale linear motion applications, these belts are neoprene with fiberglass reinforcement for quiet operation with high strength.

Withstanding temperatures up to 400° F, silicone is the best choice for use in hot environments. Belts have Kevlar reinforcement, which has very high strength, low stretch, and excellent shock resistance.

Use a single belt to drive three or more pulleys in reversing and serpentine drive systems. These belts have teeth on both sides to transmit power from either side and rotate pulleys in opposite directions. Belts are neoprene with fiberglass reinforcement for quiet operation with high strength.

Urethane has excellent abrasion resistance, so these belts don’t create dust while they run. They have Kevlar reinforcement, which has very high strength, low stretch, and excellent shock resistance.

Quiet-running neoprene is reinforced with high-strength fiberglass for use in general purpose drive systems.

Made of urethane, these belts have excellent abrasion resistance, so they don’t create dust while they run.

Often used with lathes and conveyors, these textured belts grip loads better than standard round belts, making sure heavy loads don’t slip.

Made of polyurethane, these belts resist chemicals and abrasion.

Made of hytrel polyester, these belts can be used in lower temperatures than standard polyurethane belts without becoming brittle.

In addition to chemical resistance, these belts also provide increased abrasion resistance over heavy duty round belts.

More elastic than polyurethane, this leather belting resists permanent stretch for a long service life.

The textured surface improves gripping ability.

Lengthen or shorten this polyurethane belting without tools or connectors—the interlocking links attach and detach with a twist.

The textured surface grips packages and cartons to prevent material from slipping when traveling on inclines and declines.

Cleats keep material on the belt when traveling along inclines and declines.

Cleats keep material on the belt when traveling along inclines and declines.

Build a mini conveyor in any shape you need. These conveyors have curved, straight, incline, and decline runs that you can quickly join together with the included brackets.

Create finer and more consistent finishes—these belts have a cushioned layer that creates more even sanding pressure on your workpiece.

These belts last at least 50% longer and sand faster than standard ceramic alumina belts.

Dense and hard, the ceramic alumina abrasive on these belts removes material faster and lasts longer than standard aluminum oxide abrasives.

Multiple layers of abrasive arranged in a pattern create highly consistent finishes.

Sanding belts with precision-shaped ceramic alumina abrade hard metals like stainless steel faster than standard ceramic alumina belts because of their sharp, outwardly pointed grit.

Change your sanding belts less often—these belts have a zirconia alumina abrasive that continuously fractures to form new sharp edges. These self-sharpening edges are great for aggressively removing material on steel and wood.

One of the sharpest abrasives, the silicon carbide on these belts sands soft metals and nonmetals like aluminum and rubber with ease, and it generates minimal heat to prevent material buildup.

For sanding hard, nonmetal surfaces, these belts are diamonds in the rough. Their diamond abrasive is the hardest and most durable we offer—it's sharp like silicon carbide and tough like ceramic alumina.

At least 16" wide, these sanding belts leave a smooth, consistent finish on large workpieces. They have an aluminum oxide abrasive, which is the most common abrasive for general use.