These springs are more corrosion resistant than standard compression springs.

Use these steel springs in noncorrosive environments.

Made of stainless steel, these springs are more corrosion resistant than steel compression springs.

These springs meet MS24585 and come with a traceable lot number and material test report.

Install these springs in tight spots. When pushed together, the coils nest within each other.

These springs handle higher loads than standard fastener-mount compression springs. Secure by inserting a fastener through the hole at the base.

Flanges on the ends of these springs provide a flat mounting surface.

Use these steel springs in noncorrosive environments.

Made of stainless steel, these springs are more corrosion resistant than steel extension springs.

For specialty applications and connections, these springs have unique end types.

Made of stainless steel, these springs are more corrosion resistant than steel extension springs.

Made of stainless steel, these springs are more corrosion resistant than steel extension springs.

Made of stainless steel, these springs are more corrosion resistant than steel springs.

Use these high-carbon steel springs in noncorrosive environments.

Raised tabs, known as fingers, enable these springs to compress without widening, so they won't bind or deform in housings with little clearance. Use with ball bearings in precision and high-speed drive assemblies to reduce noise, vibration, and wear.

Use these high-carbon steel springs in noncorrosive environments.

Keep pipe flange connections sealed during demanding applications. When installed under flange bolt heads, these springs compensate for shock loads, vibration, and thermal expansion and contraction.

Use these steel springs in noncorrosive environments.

Made of stainless steel, these springs are more corrosion resistant than steel springs. Use them on shafts, bolts, and the ends of valves to maintain tension and separate components.

Notches make these springs more flexible than Belleville disc springs and allow liquid to flow around the spring, even while it's in use.

These springs follow the Raymond die spring color code.

A quieter, more vibration-resistant alternative to traditional steel die springs, these polyurethane springs resist oxidation, oil, and abrasion in high-load, high-pressure applications.

Unlike constant-force springs, the farther you pull these, the harder they are to pull. Use them for applications where the load becomes lighter as the spring contracts, such as in automated dispensing machines.

These general purpose gas springs assist in opening lids, covers, windows, conveyors, and seats—similar to a hatchback opening on a car.

With no gas to leak out and a corrosion-resistant 316 stainless steel construction, these mechanical springs are built for long-term, maintenance-free use in wet environments.

These gas springs have threaded ends so you can use them with any combination of end fittings, studs, and mounting brackets.

Often used to open lids, covers, windows, conveyors, and seats, these gas springs function similar to a hatchback opening on a car. They have an eyelet end fitting on each end.

Ensure you have the correct force for your application. These gas springs have a bleed valve so you can release gas to permanently reduce the force to meet your requirements.

Color coded by force to help you choose the correct replacement, these gas springs generate high force.

Made from stainless steel for excellent corrosion resistance in damp environments. These gas springs have a bleed valve so you can release gas to permanently reduce the force to meet your requirements.