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About half as strong as medium-strength steel screws, these screws can be used for light duty fastening applications, such as securing access panels.
Designed for construction and exterior building applications, these metric screws are often used to join I-beams and scaffolding. Their partial threading leaves an unthreaded portion that is strong enough to stand up to the sideways forces of joints.
The most common heavy hex head screw, these steel screws meet ASTM A325 regulations for structural joints, such as mating I-beams and scaffolding.
These steel screws have corrosion-resistant finishes.
These steel screws are hot-dipped galvanized to resist corrosion in wet environments.
About half the strength of medium-strength bolts, these Grade 2 bolts are for light duty fastening. Carriage bolts have a smooth, rounded head for a finished look. The square neck keeps these bolts from turning when tightening a nut.
About half the strength of medium-strength steel nuts, these nuts are for light duty fastening applications.
Because they’re about 10% wider and taller than standard hex nuts, these heavy hex nuts distribute the load over a large area. Grade 2H nuts are comparable in strength to Grade 9 bolts.
These Class 10 nuts are about 25% stronger than medium-strength steel heavy hex nuts.
These nuts are designed to secure ASTM A325 bolts in structural joints. About 10% wider and taller than standard hex nuts, these heavy hex nuts distribute the load over a large area.
Made from Grade 5 steel, these inch-sized coupling nuts are suitable for most applications.
About half the strength of medium-strength steel coupling nuts, these nuts are for light duty fastening applications.
About half the strength of medium-strength steel square nuts, use these nuts in light duty fastening applications, such as securing access panels.
Also known as utility-pole nuts, these square nuts have a cupped shape that ensures a flush fit against curved surfaces and corners that bite into soft materials to resist loosening.
Compared to our general purpose washers, these have exaggerated diameters and/or thicknesses for covering oversized holes or for use as spacers and levelers.
SAE washers generally have a smaller ID and OD than USS washers.
USS washers generally have a larger ID and OD than SAE washers.
Designed for use with structural screws, studs, and nuts, these washers are often used for construction and exterior building applications.
These thick washers are designed to support structural screws, studs, and nuts.
When you’ve applied the correct tension, these washers release an orange dye as a visual indicator.
These washers have prongs that pierce foam insulation so they stay in place.
Square washers fit into slots and channels and have flat sides to keep them from rotating.
Repair sagging, cracked plaster with these washers. The holes allow plaster to flow through to form a secure bond between the washer and the wall.
Prevent screws from sinking into wood—these washers have a large OD.
Connect cross-bracing rods or cables to structural beams.
These washers have a flange to spread force across structural beams better than standard washers for cross-bracing rods and cables.
As a screw is tightened, these washers flatten to add tension to the joint and prevent loosening from small amounts of vibration.
Keep tension when fastening materials prone to expanding and contracting, such as wood. The coil of these washers prevents nuts and bolts from loosening.
Create a stronger seal than metal or rubber alone. These one-piece washers are metal for strength with a bonded rubber seal that creates a tight grip.
Commonly called beveled washers, these are tapered to fit inside an I-beam's flange to provide a parallel bearing surface.
Commonly called beveled washers, these metric washers are tapered to fit inside an I-beam's flange to provide a parallel bearing surface.
About half the strength of medium-strength steel threaded rods, use these for light duty hanging, mounting, and fastening.
The low-profile head on these pins holds them in place on one side.
These pins are coiled for more tension than standard wire-snap cotter pins.
An economical alternative to standard unthreaded spacers.
These steel anchors are available with corrosion-resistant finishes.
For better surface holding, the head is approximately 75% larger than a standard nail head.
Also known as ring-shank nails, these nails lock into the fibers of soft woods such as cedar and pine.
Also known as spikes, these nails have a larger diameter and longer shank than standard nails.
These nails have the smallest shank and head sizes of our nails for nailers.
The 1" diameter cap keeps the nail head from cutting into felt, foam board, and other soft materials.
Use these staples in air-powered, electric, cordless, and manual staplers.
Use these staples to join corrugated and solid board packaging.
Squeeze these rings closed for use as sack closures, in tagging applications, and for repairing fences.
These rings come in a strip for less frequent reloading in auto-feed pliers.
These curved staples snuggly hold round signal wire such as coaxial cable and telephone wire.
Secure and insulate round signal wire such as data and communication wire.
Along with fencing, these staples can also be used to install suspended ceilings and to secure insulation.
Use these flat staples to secure romex cable.
The strongest steel fittings we offer, these can withstand extreme-pressure applications.
The galvanized finish on these fittings provides fair corrosion resistance. Fittings are for use in low-pressure applications.
Use with hex nuts to connect threaded rod.
Keep hardware centered in the strut channel slot.
Add hardware to strut channel without having to hold the washer in place or reach inside the channel.
Mount these general purpose U-bolts into an existing bracket, or combine with a mounting plate for a secure hold at the mounting surface.
Add a mounting plate to your U-bolt for a more secure hold at the mounting surface.
A mounting plate provides a more secure hold at the mounting surface.
Suspend and route flat-bottomed objects such as strut channel and small duct.
A durable rubber cushion and mounting plate prevent corrosion and wear caused by metal-to-metal contact. The mounting plate is removable, so the U-bolts can be installed onto an existing line without needing to dissemble it.
A cushion covering the clamp reduces vibration and wear from clamp edges. Clamps surround lines of pipe, tubing, and conduit completely while holding them close to the mounting surface.
These clamps completely surround single lines of pipe, tubing, and conduit while holding them close to the mounting surface.
Also known as bridle rings, routing rings have an open-eye design that allows you to quickly install wire and cable.
Mount these ringbolts into a threaded hole, or use the nut for through-hole mounting. The pivoting ring allows material to move freely.
Hang cable and other flexible material beneath wire to prevent it from sagging and swaying. To install, hook the two ends of the ring around the wire—no fasteners required.
Combine with a U-bolt or routing clamp to convey a variety of material, such as pipe, tubing, and cable raceway, at distance from floors, walls, and ceilings. The extra clearance allows access for maintenance and adding and removing lines.
Also known as machinery eyebolts.
Also known as nut eyebolts, these are designed for through-hole applications.
Create your own lifting eye by adding an eye nut to a stud or bolt.
Also known as thimble eyebolts, the large, contoured groove in the eye reduces kinks and minimizes the wear on your wire rope.
Strike the prongs with a ball peen hammer and they expand to hold the connecting link together.
Hang, pull, and secure loads. These rings are good for general non-lifting applications.
Limit rope and chain movement with the narrow end of these links and attach multiple connectors to the wide end.
Smaller than lifting oblong links, these links provide room for snaps, carabiners, and other non-lifting connectors.
These swivel hooks have a latch that ensures rope, chain, and fittings won't separate from the hook when the load slackens.
Wind rope around these cleats for a secure hold.
Attach these hooks to elastic cord to make a tie down.
Create a tie down by attaching these hooks to elastic strap.
Often used in cable stringing and pulling applications, these connectors lock quickly and stay closed under tension.
Wrap these ties through tags.
Loop these rings onto tags.
Secure grating to your support structure.
Tighten these jam nuts against the turnbuckle body to prevent the fitting from loosening.
Our heaviest duty lacing uses bolts and nuts to repair and extend 0.25" to 0.625" thick belts.
This low-profile lacing requires only a hammer to install so it's good for repairs and tight spaces. Also known as alligator lacing, the lacing teeth bite into the belt to hold. Use on belts up to 0.31" thick.
Insert a pin into the lacing and lock it in place by bending the ends at a 90° angle.