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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.
With a thickness that's precision ground to a tight tolerance, these bars are sometimes called flat stock.
These sheets and bars are zinc galvanized for good corrosion resistance.
In addition to good corrosion resistance, the nickel coating provides better wear resistance than the zinc-galvanized coating.
A silver-filled resin coating on one side of these sheets protects from degradation caused by bacteria and fungi.
The galvannealed coating allows these steel sheets to be painted without prepping the surface. They're easier to weld and more scratch resistant than zinc-galvanized steel sheets. Use them for outdoor signs, cabinets, and doors.
Coated with an aluminum-silicon alloy, these sheets resist corrosion while withstanding long-term exposure to high temperatures. Use in drying ovens, furnaces, and smokestacks.
These rods are precision ground and held to a strict straightness tolerance, so they're ready for turning in a lathe.
These rods are zinc galvanized for good corrosion resistance.
The matte plating on these rods increases corrosion resistance and wear resistance.
These 90° angles are zinc galvanized for good corrosion resistance.
Made of rigid low-carbon steel, these I-beams are often used in construction, framing, lifting, and hoisting applications.
Made of stiff low-carbon steel to deflect less under load, these H-bars are commonly used in machine bases, construction, platforms, and frames.
Also known as black-annealed wire.
Coated with PVC for corrosion resistance, this carbon steel wire will stand up to outdoor use.
This wire is zinc galvanized for good corrosion resistance.
Ready for turning in a lathe, these rods are precision ground and held to a strict straightness tolerance.
The lead additive acts as a lubricant, which allows 12L14 carbon steel to withstand very fast machining. It's used to fabricate a wide variety of machine parts.
A lead-free alternative to 12L14, 1215 carbon steel contains the same amount of sulfur and phosphorus for excellent machinability. It is often used for shaft couplings, studs, and pins.
Precision ground and held to a strict tightness tolerance, these rods are ready for turning in a lathe.
Often called Stressproof, these rods are stress-relieved to minimize warping during machining.
These rods are precision ground and held to a strict straightness tolerance, so they're all set for turning applications in your lathe.
Also known as Fatigueproof, these rods have enhanced strength and resistance to breaking from repeated impact compared to High-Strength Easy-to-Machine 1144 Carbon Steel Rods.
1117 carbon steel responds to surface-hardening heat treatment better than other easy-to-machine carbon steels. Use it to fabricate shaft couplings, studs, pins, and universal joints.
Stronger than low-carbon steel with equally good machinability, 1045 carbon steel is widely used for bolts, studs, and shafts.
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.
This UHSS (ultra 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.
The nickel and molybdenum content gives AR400 carbon steel the ability to resist wear better than all other carbon steel. It's often used as wear strips, liners, and deflector plates.
Easy to forge, grind, and heat treat, these 1084 high-carbon steel bars offer high strength and resist wear and abrasion.
Exceptional hardness makes AR500 carbon steel more resistant to wear and impact than other carbon steel.
Even in low temperatures, A516 carbon steel resists breaking upon impact. Also known as pressure-vessel-quality (PVQ) steel, it is mostly used for boilers, storage tanks, and pressure vessels.
Also known as blue-tempered steel.
These sheets have a softened temper, which is also known as annealed, so they can be easily formed into shape and then heat treated for spring properties.
Also known as scaleless steel.
Always have the right size wire on hand with a 72-piece assortment.
Also known as music wire.
This wire is coated with oil for corrosion resistance and lubricity. Use it for bundling and as tag wire.
Cut this stock to length to create the machine key you need. Straight keys, with a square or rectangular cross section, are the most common type of key. Install in a keyway to transmit torque from shafts to gears and other components.
When a keyway is damaged, cut a new, wider one. This key stock is stepped to match repaired keyways in shafts or gears. Cut it to length to create the machine key you need.
Straight keys, with a square or rectangular cross section, are the most common type of key. Install them in keyways to transmit torque from shafts to gears and other components.
Thread a screw through the tapped hole to pop these keys out of a keyway. When installed, they fill oval keyways completely, reducing stress on the key and shaft. The rounded ends make it easy to slide gears, hubs, and other components into place.
When installed, these keys fill oval keyways completely, reducing stress on the key and shaft. The rounded ends make it easy to slide gears, hubs, and other components into place. These are also known as feather keys.
Also known as offset key stock, use step keys to repair keyways in gears and shafts.
Combine these general purpose shafts with a linear bearing and shaft support to create a basic linear motion system.
For your compliance and quality assurance needs, these shafts come with a material certificate with a traceable lot number.
With 2" of each end softened, it's easier to machine a custom end for mounting. The rest of the shaft is case-hardened, which increases hardness and wear resistance on the surface of the shaft while allowing the center to remain soft for absorbing stresses caused by shifting loads.
Lighter than solid shafts, hollow shafts reduce your total system weight and allow you to run various media such as electrical wiring, compressed air tubing, coolants, or lubricants through the center.
Keep a material certificate on hand for compliance and quality assurance needs. Certificates include a traceable lot number and material test report. These hollow shafts reduce system weight and allow you to run various media such as electrical wiring, compressed air tubing, coolants, or lubricants through the center.
For a snug fit with a linear bearing in high-precision applications, these shafts are turned, ground, and polished to tight diameter and straightness tolerances.
Replace worn shafts in two-piece support-rail shaft systems, or mate with a support rail to create your own. The tapped mounting holes match those on our Support Rails.
These shafts include a support rail for a stable setup that eliminates bending and prevents linear bearings from rotating.
Combine these general purpose drive shafts with gears, sprockets, and bearings to transmit rotary motion.
Eight times straighter than standard rotary shafts, these tight-tolerance shafts minimize vibrations and reduce wear to bearings and other components. They also have diameter tolerances that are twice as tight as standard rotary shafts.
Combine with a machine key to transmit torque to gears, sprockets, and other power transmission components.
These shafts have keyways only on the ends, leaving a plain shaft in the center. Use the keyways with machine keys to transmit torque to gears, sprockets, and other keyed components. Use the middle of the shaft with bearings and other round-bore components.
In addition to diameter tolerances that are twice as tight as standard keyed shafts, these shafts include a traceable lot number and test report. Use them with machine keys to transmit torque to gears, sprockets, and other power transmission components.
Thread these shafts into a tapped hole to support idler sprockets and pulleys in tensioning applications.
Mount the flange to a machine or wall to support idler sprockets and pulleys in tensioning applications. They include washers and a nut to position your component and hold it in place.
A flat surface area allows set screws to dig into the shaft for securely mounting gears, sprockets, and bearings.
Connect these internally threaded shafts directly to threaded components, or use a fastener to secure. They have a flat surface area that allows set screws to dig into the shaft for securely mounting gears, sprockets, and bearings.
Connect these internally threaded shafts directly to threaded components, or use a fastener to secure.
Attach threaded accessories, such as mixer propellers and fan blades, to the end of these shafts.
A shoulder near the end of the shaft provides a stop for gears, sprockets, and bearings.
Good for hydraulic systems, machine tools, and other high-torque applications, these shafts have teeth that transmit high rotational loads.
Create strong structures by welding this framing together. Add metal panels to close off openings.
Create posts of varying lengths.
Reduce the chance your concrete will crack from expansion and contraction and other tensile stresses.
Machine your own gears to fit the exact face width and shaft diameter required.