Also known as quick links, these links thread closed by hand or with a wrench.

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.

Also known as lap links or repair links.

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.

Often used with transport chain, these links are good for binding, tying down, and pulling loads.

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.

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.

Also known as master and sling links, a large inner diameter provides room to attach multiple connectors or legs on a sling.

Providing better load distribution and alignment than single oblong links, these reduce wear in three and four leg slings.

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 strongest shackles we offer, these connectors have a pin with flush ends that prevents snagging and accidental disengagement.

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.

Cotter pins secure each end of these shackles for temporary installations.

More secure than screw-pin shackles, these shackles close with a bolt that’s fastened with a nut and a cotter pin.

To prevent these shackles from snagging or accidentally coming undone, their pin doesn’t stick out from their body.

The pin doesn’t stick out from their body, so these shackles won’t snag or accidentally come undone. They have a narrow opening that restricts the movement of wire rope and chain.

Since they close with a screw pin, these shackles are quick to install and remove by hand, but should only be used in low-vibration environments where they’ll remain stationary. Their narrow opening restricts the movement of wire rope and chain.

Indentations in the shackle body hold the head of the pin in place once fastened.

Indentations in the shackle body hold the head of the pin in place once fastened.

Minimize twisting and knotting of rope and chain.

The twisted shape of these shackles keeps rope and chain from twisting and knotting. And if their screw becomes loose, the lip on the shackles prevents it from falling out.

Attach a rope to the ring on the pin for remote release where access in limited. These shackles have an eye end for connecting to a hook.

Pull the collar to release the shackle from its locked position.

Create fast connections with items, such as rope, chain, and straps.

The force of the load helps keep the arms closed. Press the trigger for quick connection and disconnection.

A wide opening accepts large diameters of rope and pipe. Squeeze the trigger to release.

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.

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.

A latch ensures rope, chain, and fittings won't separate from the hook when the load slackens.

Weld these hooks into place to create a permanent lifting device.

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.

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.

These rotate for easy positioning before a load is applied.

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 eye end.

Also known as foundry hooks, use these on thick molds, castings, and objects that don't have attachment points.

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.

Often used in binding and tie-down applications, these hooks have a narrow opening to securely hold a single link of chain.

Easily slip chain, rope, and fittings on and off these open-mouth hooks. Attach your chain to the clevis end.

The spring-loaded latches on these hooks snap back into place, securing your load.

Join, organize, and suspend objects with these S-hooks.

These hooks meet MS-87006.

Bend these S-hooks by hand to hang large and small objects from almost any surface.

Use these to adjust the position of a fitting or an object under load and minimize twisting and knotting.

Minimize twisting and knotting of rope and chain and adjust the position of a fitting or an object under load.

These rotate for easy positioning before a load is applied to minimize twisting and knotting of rope and chain.

Adjust the position of a fitting or an object under load and minimize twisting and knotting.

Minimize twisting and knotting of rope and chain and adjust the position of a fitting or an object under load.

Remove the shackle after lifting while keeping the base installed for future use.

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.

Keep on hand all the parts needed to assemble custom hoist rings.

Use these links to connect the ends of chain to form a longer chain or create a loop for key chains and ID tags.

Thread chain through the hole of these links to form an adjustable loop or connect chain ends to form a longer chain.

Also known as ball chain, use this chain to keep tools with machines, keys with chucks, and gas and dust caps with tanks.

Roller chain links engage with matched sprocket teeth to transmit power between rotating shafts.

This 304 stainless steel roller chain is more corrosion resistant than treated steel roller chain.

This treated steel chain has over eight times the capacity of stainless steel chain.

This self-lubricating nickel-plated steel chain has better corrosion resistance than steel chain and does not require regular maintenance.

Plastic bushings as well as stainless steel pins and outer side plates give this chain a longer service life than other lightweight chain.

This acetal chain is suitable for general purpose applications.

Made of treated steel, these links offer increased corrosion resistance over steel attachment links.

Attach brackets and guides to these chains—or move material directly—for use in conveying, timing, and aligning applications.

Also known as leaf chain and counterbalance chain, this chain is used with pulleys rather than sprockets for low-speed pulling and as counterweight chain for machine tools, elevator and oven doors, and forklift masts.

The flat, oblong side plates on this chain make it ideal for conveying items in manufacturing and packaging lines.

With wide gaps between each side plate, debris in dirty environments falls through this chain instead of building up.

Made of stainless steel, this chain has excellent corrosion resistance.

Keep an assortment of extra steel links on hand for maintenance and repairs. Assortments include connecting, adding, and adding-and-connecting links.

Made of stainless steel, this chain has excellent corrosion resistance.

This acetal plastic chain is light, quiet, and nonconductive. Its links snap together, so you don't need connecting links.

Also known as inverted tooth chain, this chain smoothly transmits power between rotating shafts with minimal vibration and noise.

Links split in half and snap back together. Use to connect two lengths of chain.