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This wire rope provides a good balance of abrasion resistance and flexibility.
More wires per strand than other wire rope provides the flexibility required for repeat bending over drums and pulleys.
Often used as bracing and guy wires, individual strands are thick solid wire for a stiff construction.
More wires per strand than other wire rope provides the flexibility required for repeat bending over drums and pulleys and the stainless steel wire rope withstands outdoor and washdown applications.
This stainless steel wire rope withstands outdoor and washdown applications. The construction of this wire rope provides a good balance of abrasion resistance and flexibility.
This braided wire has a stiff construction for use as bracing and guy wires.
More wires per strand than other wire rope gives this wire rope the flexibility required for repeat bending over drums and pulleys.
These clamps must be oriented with the saddle on the long (live) end and the U-bolt on the short (dead) end. They’re also known as wire rope clips.
Constructed with a saddle for both the long (live) end and the short (dead) end, these clamps apply equal pressure without crimping or crushing the wire rope, so orientation doesn't matter. Also known as fist grip wire rope clips.
Install these clamps without any specific orientation, slide the nut over the rope and tighten it onto the threaded halves with a torque wrench.
Make a removable loop without specialty tools for use in noncritical applications, such as fencing. Also known as tiller clamps.
Use in noncritical applications, such as fencing, where the strength of a forged clamp is not required. Install clamps so the saddle is on the long (live) end and the U-bolt is on the short (dead) end. They’re also known as wire rope clips.
These compression sleeves are designed to meet lifting specifications.
Also known as heavy-pattern thimbles, these can be used to reinforce the loop of a sling.
Also known as standard-pattern thimbles, these provide better protection against fraying than light duty thimbles.
These thimbles are also known as thin pattern thimbles.
The open-end design leaves more room for connections than other thimbles.
Install these stud-end plug-lock fittings on the end of wire rope for a strong hold and finished appearance.
Install these clevis-end plug-lock fittings on the end of wire rope for a strong hold and finished appearance.
Install these eye-end plug-lock fittings on the end of wire rope for a strong hold and finished appearance.
Install these swivel-hook-end plug-lock fittings on the end of wire rope for a strong hold and finished appearance.
Feed the wire rope into the opening at the bottom of these hook-end fittings and through the body for a quick and simple installation.
Feed the wire rope into the opening at the bottom of these eye-end fittings and through the body for a quick and simple installation.
Feed the wire rope into the opening at the bottom of these clevis-end fittings and through the body for a quick and simple installation.
Also known as open wedge sockets, these end fittings require only a torque wrench to install.
The galvanized finish resists corrosion.
The swivel hook with latch installed on one end, prevents the wire rope from twisting. It is for use with winches.
A thimble on the inside of the loop protects the wire rope from fraying.
A large opening combined with an easy to open latch allows for quick and easy attachment to links and rings.
Create a choker loop around a supporting structure with the snap-hook end and use the loop to secure the suspended material.
Made to meet stringent military standards, the fittings on these lanyards meet MS 20668 and MS 21259.
Attach the 90° eye to a surface for support and use the loop to secure the suspended material.
Attach to a threaded anchor or hole for support and use the loop to secure the suspended material.
Made to meet stringent military standards, the fittings on these lanyards meet MS 20668.
The swivel fork allows the lanyard to rotate freely.
Use the twin hooks to suspend items from two points and use the loop to secure the suspended material. For use with cable trays or signs.
The swivel fork ends allow the lanyard to rotate freely.
Screw the pin into position by hand for quick installation and removal. They're for use in low-vibration applications where the shackle remains stationary.
A bolt fastened with a nut and cotter pin makes these shackles more secure than screw-pin shackles.
One end has a bolt fastened with a nut and cotter pin for a more secure connection than flush-pin connectors.
The pins have flush ends to prevent snagging and accidental disengagement.
The strongest shackles we offer, these connectors have a pin with flush ends that prevents snagging and accidental disengagement.
Secure each end with the cotter pins for temporary installations.
Cotter pins secure each end of these shackles for temporary installations.
Pull the collar to release the shackle from its locked position.
Also known as master and sling links, a large inner diameter provides room to attach multiple connectors or legs on a sling.
Limit rope and chain movement with the narrow end of these links and attach multiple connectors to the wide end.
Providing better load distribution and alignment than single oblong links, these reduce wear in three and four leg slings.
Commonly used in conjunction with connecting links to meet OSHA 29 CFR 1910.184.
Hammer the pin through the center to assemble these links. They’re also known as hammer locks and sling links.
The wide end of these links has more room for attachments than standard figure-eight links.
The flat side lets webbing and strapping lay flat, so they don’t slide and bunch.
Once secured with the included locking pin, these links must be cut off to be removed.
A pear-shaped link and hook for chain shortening allow you to create an adjustable-length chain sling.
Also known as quick links, these links thread closed by hand or with a wrench.
The narrow end restricts the movement of rope and chain, and the wide end allows room to attach multiple connectors.
Use for three-sided connections. Flat sides ensure webbing and strapping lay flat, so they won't slide and bunch.
Flat sides allow webbing and strapping to lay flat, so they won't slide and bunch.
The twisted shape of these links prevents loads from rotating or knotting.
Best for attaching different widths of webbing and strapping, the flat sides ensure they lay flat and won't bunch or slide.
Often used with transport chain, these links are good for binding, tying down, and pulling loads.
Drive the end through the eye using a ball peen hammer and then weld or flatten the extended end to close. These links are also known as cold shuts.
Restrict rope and chain movement with the narrow end, attach multiple connectors to the wide end, and then hammer these links closed.
Strike the prongs with a ball peen hammer and they expand to hold the connecting link together.
Also known as lap links or repair links.
Hang, pull, and secure loads. These rings are good for general non-lifting applications.
The flat side allows you to connect webbing and strapping, so they lay flat and resist bunching.
Smaller than lifting oblong links, these links provide room for snaps, carabiners, and other non-lifting connectors.
These snaps have an eye that rotates for easy positioning.
Create fast connections with items, such as rope, chain, and straps.
Squeeze the trigger to quickly release the latch.
The force of the load helps keep the arms closed. Press the trigger for quick connection and disconnection.
Quickly connect and disconnect these carabiners—they don’t lock.
Hold rope more securely than nonlocking and slide-release carabiners. While these carabiners are not as secure as screw-locking carabiners, they are easier to open.
The most secure carabiner we offer, these carabiners won’t accidentally open when rope slides because you need to unscrew the latch to unlock them.
Designed for angular lifting, hoist rings resist stresses that would bend or break an eyebolt. They have a lifting ring that pivots 180° front to back to compensate for roll and sway when lifting heavy or unbalanced loads.
The ball bearing on these hoist rings makes it easy to rotate your load even after it’s suspended.
For a more secure hold than standard hoist rings, weld these hoist rings to your load.
The fixed base provides added stability and allows you to lift heavy loads with smaller thread sizes.
These have split rings that swing freely and pull from the center for easy alignment.
The snap and split ring swing freely and pull from the center for easy alignment.
For easy positioning before a load is applied, these rotate to minimize twisting and knotting of rope and chain.
These rotate for easy positioning before a load is applied to minimize twisting and knotting of rope and chain.
Rotating for easy positioning before a load is applied, these minimize twisting and knotting of rope and chain.
A latch ensures rope, chain, and fittings won't separate from the hook when the load slackens.
Rotating for easy positioning before a load is applied, these have a latch to ensure that rope, chain, and fittings won't separate from the hook when the load slackens.
These rotate for easy positioning before a load is applied. They have a latch to ensure rope, chain, and fittings won't separate from the hook when the load slackens.
Slide the clevis pin into these hooks to attach chain. A latch ensures rope, chain, and fittings won't detach from the hook when the load slackens.
Weld these hooks into place to create a permanent lifting device.
These have a removable half-link to attach large rings, links, and other closed fittings.
A latch ensures rope, chain, and fittings won't separate from the hook when the load slackens. The hook opening accommodates large anchor points and allows chain to move freely through the closed hook.
The opening on these hooks fits large anchor points and allows chain to slide through when the hook is closed. They have a spring latch to ensure rope, chain, and fittings won't detach from the hook when the load slackens.
Garolite insulation prevents electrical current from passing to hoists and other lifting equipment, causing damage. Because they're electrical insulating, these hooks are often used to hold a workpiece while welding.
Insert in eyes, links, rings, and other connectors with small openings. Also known as J-hooks.
For a more secure connection than standard hooks, the latch locks closed when a load is applied.
Rotate these hooks for easy positioning before lifting your load. They have a latch that locks when a load is applied for a more secure connection than standard hooks.
For a more secure connection than standard hooks, these clevis hooks have a latch that locks closed when a load is applied.
For a more secure connection than standard hooks, these hooks have a latch that locks closed when a load is lifted. A ball-bearing swivel allows them to rotate under a load.
These have a latch that locks closed when a load is applied for a more secure connection than standard hooks. They rotate for easy positioning before a load is applied.
Screw these hooks into place and secure with the included nut.
These rotate for easy positioning before a load is applied.
A ball-bearing swivel allows these hooks to rotate under load. Attach to chain by inserting the included pin through a link.
Use these on thick molds, castings, and objects that don't have attachment points. Also known as foundry hooks.
Also known as foundry hooks, use these on thick molds, castings, and objects that don't have attachment points.
With a narrow opening and contoured sides, these securely hold a single link of chain to prevent overtightening when lifting a load.
Slide the clevis pin into these hooks to attach chain, no extra fittings needed.
A spring-loaded pin ensures chain won't separate from the hook when the load slackens. Connect your chain to the clevis end.
A spring-loaded pin ensures chain won't separate from the hook when the load slackens. Connect your chain to the eye end.
The flat eye on these hooks keeps webbing and strapping flat, so it doesn’t bunch.
These kits fit most hooks with a drilled pinhole.
Use these kits with hooks that doin't have a pinhole.
An unthreaded shank allows you to cut your own threads.
Easily slip chain, rope, and fittings on and off these open-mouth hooks. Attach your chain to the eye end.
Easily slip chain, rope, and fittings on and off these open-mouth hooks. Attach your chain to the clevis end.
The latch ensures rope, chain, and fittings won't separate from the hook when the load slackens.
Attach chain to the eye end of these hooks.
These swivel hooks have a latch that ensures rope, chain, and fittings won't separate from the hook when the load slackens.
Often used in binding and tie-down applications, these hooks have a narrow opening to securely hold a single link of chain.
Often used in binding and tie-down applications, these securely hold a single link of chain.
The spring-loaded latches on these hooks snap back into place, securing your load.
For extra security, these have a latch that snaps back into place to secure your load.
Join, organize, and suspend objects with these S-hooks.
One side is closed and the other is open.
These hooks have closed ends on both sides.
Use these S-hooks for lifting applications.
Also known as seizing bands, these prevent fraying while cutting wire rope. Wrap the band around the wire rope and squeeze the flat end into the indented end.
The chain has flat links that fold back on themselves for maximum flexibility. Use the split ring on one end to hold tags and keys.
These slings are more abrasion and cut resistant than web and round slings, yet lighter in weight than mesh and chain slings.
Use the bore to mount these pulleys on a shaft. These pulleys are also known as sheaves.
Tighten these jam nuts against the turnbuckle body to prevent the fitting from loosening.
Often used in cable stringing and pulling applications, these connectors lock quickly and stay closed under tension.
Loop these rings onto tags.