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Also known as mild steel, low-carbon steel is easy to machine, form, and weld. It's widely fabricated into parts that don’t require high strength.
These 90° angles are zinc galvanized for good corrosion resistance.
Made of stiff low-carbon steel to deflect less under load, these H-bars are commonly used in machine bases, construction, platforms, and frames.
Made of rigid low-carbon steel, these I-beams are often used in construction, framing, lifting, and hoisting applications.
The same steel used in automobile bodies, this AHSS (advanced high-strength steel) allows you to fabricate high-strength parts using thinner material than you could with other types of steel. It is formable, weldable, and more economical than alloy steel.
4130 alloy steel has a low carbon content that provides good weldability. It's often used for structural applications.
4130 alloy steel has a low carbon content that provides good weldability. It's often used for gears, fasteners, and structural applications.
Easier to machine than 52100 alloy steel rods, these extremely hard and wear-resistant tubes are often used to create bearings, bushings, and other cylindrical parts that are under constant stress. They’re also known as chrome steel.
Also known as chrome-moly steel, this versatile 4140 alloy steel is used for a wide range of parts, such as axles, shafts, collets, and die holders. It resists fracturing from repeated stress.
Gray cast iron machines faster with less wear on cutting tools than most types of steel. It's often fabricated into gears, pulleys, rollers, and bushings.
Run cable and tubing in the tightest spaces with channel that is one-quarter the height and one-half the width of regular strut channel.
Half the height and the same width as regular strut channel, this low-profile strut channel fits into tight spots and is compatible with many of the same brackets.
This welded, one-piece strut channel combines two strut channels side-to-side.
This welded, one-piece strut channel combines two strut channels back-to-back.
Up to two times the height of regular strut channel, this high-profile channel is stronger than regular strut channel.
Create continuous runs of channel without corners.
Slide the strut channel into the tube for telescoping length adjustments.
For compatibility with quick-connect clamps to secure pipe and conduit without screws and tools, this strut channel has narrow slotted holes.
Push these nuts into place rather than threading them onto a fastener.
A spring plus serrated grooves that grip the lip of the channel provide a more secure hold than standard strut channel nuts.
Connect two channels to create a stacked channel.
Serrated grooves grip the lip of the channel.
Keep a rod securely centered against the strut channel.
Also known as insert nuts, these convert slotted holes to threaded round holes and keep them centered in the channel.
A tab fits tightly against the lip of the channel to keep these nuts from slipping.
In addition to serrated grooves for gripping the lip of the channel, these nuts have wings for easy positioning.
Quickly fasten threaded rod to strut channel. Snap these hinged nuts onto a threaded rod, then slip the head through a strut channel hole.
Run wires through the hollow stud of these nuts or use them as vents.
Quickly attach these nuts by twisting them closed at any point along a threaded rod.
Insert these nuts into the long open side of strut channel and twist to secure. A built-in washer enables one-handed installation.
There's no need for additional fasteners with these nuts—they combine a strut channel nut with a spring and a threaded stud.
Add hardware to strut channel without having to hold the washer in place or reach inside the channel.
Keep hardware centered in the strut channel slot.
Use with hex nuts to connect threaded rod.
Notches on these washers grip the channel to keep them in place.
Roll components along strut channel hanging overhead.
Brackets mount on the outside of strut channel to allow trolley movement.
Smoothly move lightweight curtains overhead along strut channel.
Designed to wrap around the sides of strut channel, these brackets provide a stronger hold than other strut channel brackets.
These brackets have narrow slots compatible with quick-connect clamps for securing pipe and conduit on the channel side of struts without screws or tools.
Push these brackets into strut channel and tighten the included cam screws for a partially concealed connection.
Attach strut channel at any point on a threaded rod without taking apart your assembly.
Provide a stable, nonmarring base for strut channel legs.
Mount strut channel away from walls.
Create a four-sided raceway for cable, or give a more finished look to strut channel structures.
Cover rough ends of strut channel.
Support the corners of strut channel structures.
A tab on the end of these shelf brackets fits inside the strut channel for extra stability.
Block strut channel ends to keep trolleys, slides, and other hanging components from rolling out.
Position two strut channels at a 30° to 90° angle, then tighten the bolt to secure.
Mount these brackets to strut channel to add stair treads. They’re also known as stringers.
Support and protect conduit by mounting it to strut channel.
Mount to your strut channel to support rail, tube, or pipe.
Mount electrical components along your strut channel to bring power to new locations.
Mount between two strut channels to create a handhold.
Attach cable, pipe, tubing, and other items to your strut channel.
Hold two pieces of strut channel together so they can smoothly open or close.
Slip these hangers onto the lip of top-opening strut channel to attach chain, wire rope, pipe, and threaded rod.
For quick mounting of components, these hangers snap into strut channels for a strong hold and easy repositioning.
Rails are drilled with consistently spaced holes for multiple mounting options that do not require machining. Use this steel bolt-together framing to build guards, tables, and racks.
Half the weight of steel, this aluminum framing resists corrosion in wet environments.
Create posts of varying lengths.
Create strong structures by welding this framing together. Add metal panels to close off openings.
In addition to creating space inside walls or ceilings—to prevent dampness or make room for insulation—these channels can also be used to level or resurface them.
This raceway system is also known as wireway and wire trough.
Gaskets on the covers and at connection points protect against dust as well as seeping oil and coolant.
Route power, data, and control cable rated up to 600 volts AC/DC.
Protect wire and cable from dust, dirt, and oil/coolant dripping—this raceway is rated NEMA 12.
With a top that overhangs the cover, this raceway keeps out rain. It is rated NEMA 3R for protection from liquids and light splashing.
Customize component placement without drilling leaky holes—these channels screw into the mounting bosses in your enclosure.
Create a permanent outlet system without opening walls. These outlet strips mount to a wall with clips and hardwire to an existing electrical system.
Reduce noise caused by HVAC systems. These sturdy rubber supports isolate vibration caused by heat pumps and air conditioning units, resulting in a quieter facility. When used on roofs, they also keep components above puddled water, which can cause damage.
Adjust supports to the exact height you need to route pipe, conduit, and tubing through strut-mount routing clamps and hangers.
Support lines that expand and contract. The roller on these supports compensates for movement in your line from changing temperatures.