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Use these caps to hold components in place and protect shaft ends.
No groove required—press these rings onto the end of a shaft for a firm grip.
The wide flange provides better load distribution than standard external push rings and can be used to cover oversized holes. Also known as thread cutting nuts.
Also known as flat-style speed nuts, these have a large surface to distribute loads better than standard and flanged external push rings.
Open these rings, pass them over the end of a shaft, and release to spring into the groove.
Thicker than standard external retaining rings, these rings withstand greater force.
These rings meet military specification MS 16624.
No groove is required for these rings—their thick profile helps them grip the shaft.
The curved design of these rings works like a spring, taking up play for a tight hold.
For a smooth profile and better clearance than standard external retaining rings, the lugs on these rings point inward.
These coiled rings can be wound into place on a shaft without tools.
Slide these rings into place with one twist—no tools required—for applications with high thrust loads.
Thicker than standard spiral rings, these rings withstand greater forces.
Also known as E-style rings.
These rings are reinforced to withstand faster rotation than other side‐mount retaining rings. Also known as reinforced E‐style rings.
Also known as bowed E-style rings, these have a curved design that works like a spring, taking up play for a tight hold.
Also known as C-style and crescent rings, these rings have a small shoulder to fit in tight spaces.
Also known as poodle rings, these thick rings have "ears" that form a large retaining surface to withstand stronger forces than other side-mount retaining rings.
Often used with small engines, heavy equipment, and power transmission, these external retaining rings have speared ends to help you install and remove them.
Also known as X-washers, place these rings into the groove and squeeze tight with pliers to form a 360° closure.
Also known as constant-section rings, these rings have open ends and a profile that does not taper like other external retaining rings. Use them with linear bearings on support rail shafts.
Slide these rings into a groove near the end of the shaft and the tab locks them in place.
Squeeze these rings to place them in the groove inside a bore or housing.
With teeth along the inside, these retaining rings hold chamfered shafts inside the housing of your equipment.
Thicker and stronger than standard internal retaining rings, these withstand greater thrust loads.
For a smooth bore and better clearance than standard internal retaining rings, the lugs on these rings face outward.
No groove required—these rings have teeth that firmly grip the bore.
Slide these rings into place by hand with a single twist for applications with high thrust loads.
These coiled rings can be wound into place inside a bore or housing without tools.
With flexible teeth that slide smoothly over threads of any pitch, these push nuts can be used alone for light-duty applications or as a jam nut.
These metric push nuts can be used as a standalone for light-duty applications or as a jam nut.
A flange distributes the load over a large area and reduces stress where the nut meets the material surface.
Also known as flat-style speed nuts, these have large sides, so they're easy to push over threads by hand.
Hex speed nuts can be gripped with a wrench for ease of removal.
Pull ring ends together with retaining ring pliers and place into the bore of a shaft or housing.
Wind these retaining rings into a groove—no tools required for installation.
These assortments include pliers to install external and internal rings.
Assortments include pliers to install external rings.
Pull these rings open with retaining ring pliers, pass over the end of a shaft, and release to spring into a groove.
Assortments include pliers to install external and internal rings.
Also known as E-Style and C-style rings, slide these into the groove from the side of the shaft. They provide a wider shoulder than other external retaining rings for a larger retaining surface.
Slide these flexible vinyl caps on and they conform for a snug fit.
Made of rigid plastic, these caps are more wear resistant than vinyl caps but not as flexible.
Slide these caps over a tool handle or other round object and use the eye to hang it.
Made of FDA listed materials, these caps are suitable for food contact.
With a surface resistivity of less than 105 ohms, these caps not only dissipate electrical charges, but can be used as an electrical shield.
Keep equipment safe from electrical currents with these caps that have a surface resistivity of less than 1012 ohms.
Good for electroplating, paint baking, and powder-coating applications, these caps withstand temperatures up to 440° F or 570° F.
These flexible plastic caps are tapered to fit a variety of unthreaded and threaded objects.
Slide these flexible vinyl caps onto rectangular objects and they conform for a snug fit.
Guard the corners of fragile materials such as glass and mirrors.
Made of rigid plastic, these caps provide more wear resistance to the ends of angle iron than vinyl caps but are not as flexible.
Place these flexible vinyl caps over the ends of your angle iron and they conform for a snug fit.
Slide these flexible vinyl caps on and they conform for a snug fit. Pull the tab for easy removal.
A vibrant yellow color makes these caps stand out. They are made of flexible rubber that conforms for a snug fit. Pull the tab for easy removal.
Squeeze the dome top to remove these caps. They're commonly used as thread protectors.
Push these caps onto pipe and fittings, then tear their tab to break the seal for easy removal.
Keep personnel safe from protruding rebar and pipe. Made of rigid plastic, these durable safety caps are bright orange or yellow for excellent visibility.
More durable than plastic plugs, these provide the most protection from abrasion and impact. Use them to eliminate sharp edges and create a finished look on metal fence and machine-guard posts. Drive them in place with a hammer for a secure fit.
These assortments include rings in multiple colors so you can identify objects at a glance.
Loop these rings onto tags.
Choose from twisting, threading, cinching, and other locking mechanisms.
Stock fewer sizes of retaining rings—these stretch to fit a range of socket diameters.