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Pair these 90° angle brackets with ball socket end fittings to mount your gas spring in almost any position.
Made from stainless steel for excellent corrosion resistance in damp environments.
About twice as thick as standard 90° angle ball stud mounting brackets, these brackets are suitable for high-force applications.
Stainless steel that’s twice as thick as standard 90° angle ball stud mounting brackets makes these brackets good for high-force applications exposed to damp conditions.
Made of easy-to-machine aluminum, these brackets come without mounting holes, so you can drill holes where you need them.
Pair with ball socket end fittings to mount your gas spring in almost any position.
Drill mounting holes where you need them—these brackets are made from aluminum, so they’re easy to machine.
Since they’re at least twice as thick as standard ball stud mounting brackets, these brackets are best for high-force applications.
Made with thicker stainless steel than standard ball stud mounting brackets, these brackets work well in high-force applications exposed to damp conditions.
Pair these 90° angle offset-arm brackets with ball socket end fittings to mount your gas spring in almost any position.
Made from stainless steel, these brackets resist corrosion in damp environments.
Pair these 30° angle brackets with ball socket end fittings to mount your gas spring in almost any position.
Attach ball socket end fittings to these studs to mount gas springs.
Install these ball studs into thin material—they’re riveted, so you only need access to one side.
These brackets secure eyelet end fittings from both sides to provide a strong hold on gas springs that get bumped or jostled. Mount on any panel, lid, or door.
Attach eyelet end fittings to these brackets to mount gas springs.
Thread these ball socket end fittings onto gas springs. They rotate in any direction on a ball stud to compensate for misalignment.
These end fittings snap right on a ball stud—an integral retaining clip grips the ball stud for secure attachment until you apply enough force to pop it off.
Lift the clip on these end fittings to secure and release attachment to your ball stud.
A spring-loaded socket locks your gas spring to the ball stud—squeeze the ends together to attach and to release.
Thread these eyelet end fittings onto gas springs.
Made of aluminum, these eyelet end fittings are lightweight.
Good for use around flammable materials, these end fittings are made of nylon, which doesn't generate sparks.
Keep a convenient selection of gas spring fittings on hand—assortments include ball socket end fittings, eyelet end fittings, and ball studs.
These internally threaded rod ends have an eyelet and a ball that swivels to support angular misalignment. Also known as rod-end bearings.
Also known as rod‐end bearings, ball joint rod ends have an eyelet and a ball that swivels to support angular misalignment.
Connect your grease gun to the fitting to lubricate. Internal threads mate with rod end bolts, threaded rods, and other components with male threads.
Connect your grease gun to the fitting to lubricate.
For ease of installation, these rod ends come with a compatible jam nut. They have an eyelet and a ball that swivel to support angular misalignment.
A carbon fiber-reinforced insert or PTFE liner reduces wear, handles shock loads, and eliminates the need for lubrication.
An oil-embedded bronze insert slowly releases lubricant to the rod end. Connect your grease gun to the fitting to relubricate.
These internally threaded rod ends have an oil-embedded bronze insert that slowly releases lubricant over time. Connect your grease gun to the fitting to relubricate.
An oil-embedded bronze insert slowly releases lubricant throughout the life of the rod end.
An oil-embedded bronze insert slowly releases lubricant throughout the life of these internally threaded rod ends.
Seals keep out dirt and an oil-embedded foam insert slowly releases lubricant for a long life.
With at least 55° of ball swivel, these externally threaded rod ends accommodate greater misalignment than any other we offer.
With at least 55° of ball swivel, these rod ends accommodate greater misalignment than any other internally threaded rod end we offer.
Made to extremely tight tolerances, these internally threaded rod ends are for applications that require positioning accuracy, such as accelerators and other types of control linkages.
Made of cadmium-plated steel, these externally threaded rod ends generally handle higher loads than stainless steel, aluminum, and nylon rod ends.
Made to extremely tight tolerances, these externally threaded rod ends are for applications that require positioning accuracy, such as accelerators and other types of control linkages.
Made of cadmium-plated steel, these internally threaded rod ends generally handle higher loads than stainless steel, aluminum, and nylon rod ends.
Made of stainless steel, these internally threaded rod ends provide excellent corrosion resistance.
Made of stainless steel, these externally threaded rod ends provide excellent corrosion resistance.
These anodized aluminum rod ends are lighter than stainless steel rod ends and have good corrosion resistance.
These anodized aluminum rod ends are lighter than stainless steel rod ends and have good corrosion resistance. Internal threads mate with rod end bolts, threaded rods, and other components with male threads.
Made of impact-resistant nylon, these externally threaded rod ends withstand corrosion as well as fuels, lyes, and weak acids. They do not require lubrication and are 80% lighter than steel rod ends.
Made of impact-resistant nylon, these internally threaded rod ends withstand corrosion as well as fuels, lyes, and weak acids. They do not require lubrication and are 80% lighter than steel rod ends.
A double row of precision ball bearings allows high speeds and smooth operation.
These internally threaded steel rod ends handle loads that are at least 25% higher than other comparably sized rod ends.
These externally threaded steel rod ends handle loads that are at least 25% higher than other comparably sized rod ends.
An innovative body design keeps the ball from being pushed out when supporting thrust loads.
These internally threaded rod ends have an innovative body design that keeps the ball from being pushed out when supporting thrust loads.
Along with internal threads, these rod ends have a double row of precision ball bearings that allows high speeds and smooth operation.
With a ball joint at the top of the shank, these rod ends pivot in the middle of the body instead of in the eyelet. Use them for linear push applications that require movement along the length of the connecting rod.
Attach these nuts to rods, pipes, and tubes to make pivoting and hinge movements where misalignment is not a concern.
Made of stainless steel for excellent corrosion resistance, these nuts make pivoting and hinge movements where misalignment is not a concern.
These linkages offer excellent wear resistance. They consist of internally threaded ball joint rod ends with a ball stud attached to simplify mounting.
Able to stand up to frequent use, these linkages offer excellent wear resistance. They consist of ball joint rod ends with a ball stud attached to simplify mounting.
An oil-embedded bronze insert slowly releases lubricant to the rod end.
Along with excellent wear resistance, these linkages have a grease fitting for easy lubrication. An internally threaded rod end connects to threaded rods, studs, and other parts with male threads.
These internally threaded linkages have a slippery PTFE liner that reduces wear and eliminates the need for lubrication.
Along with excellent wear resistance, these linkages have a grease fitting for easy lubrication.
A slippery PTFE liner reduces wear and eliminates the need for lubrication.
An oil-embedded bronze insert slowly releases lubricant throughout the life of the joint.
Made of stainless steel, these ball joint linkages offer more corrosion resistance than steel and zinc ball joint linkages.
Made of stainless steel, these ball joint linkages offer more corrosion resistance than steel ball joint linkages.
A spring-loaded sleeve allows for rapid assembly and disassembly. These ball joint linkages are made of steel.
Use these bent linkages for light duty applications.
Use these linkages to create inline pivoting connections. They have internal threads on one end and external threads on the other.
Use these externally threaded linkages to create inline pivoting connections.