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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.
The matte plating on these rods increases corrosion resistance and wear resistance.
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 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.
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.
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.
Precision ground and held to a strict tightness tolerance, these rods are ready for turning in a lathe.
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.
Ready for turning in a lathe, these rods are precision ground and held to a strict straightness tolerance.
Stronger than low-carbon steel with equally good machinability, 1045 carbon steel is widely used for bolts, studs, and shafts.
The chrome plating on these rods increases corrosion resistance.
These rods are hardened for increased abrasion and impact resistance. Also known as chrome-moly steel, 4140 alloy steel resists fracturing from repeated stress.
Often called ETD-150, these rods are made from a modified version of 4140 alloy steel and have been drawn at high temperatures for excellent strength.
Ready for turning in your lathe, these rods are precision ground and held to a strict straightness tolerance.
Also known as chrome-moly steel, this versatile 4140 alloy steel is used for a wide range of parts, such as gears, axles, shafts, collets, and die holders. It resists fracturing from repeated stress.
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.
These hex bars are hardened for increased abrasion and impact resistance. They are also stress relieved to reduce the chance of warping during machining.
4130 alloy steel has a low carbon content that provides good weldability. It's often used for gears, fasteners, and structural applications.
Often used for gears, shafts, and ball screws, 4150 alloy steel resists wear from friction and abrasion.
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.
Use for power transmission and structural applications that involve extreme impact, heat, and wear.
A modified version of 4340 alloy steel, 300M is used in applications that require high yield strength, such as torsion bars and drive shafts.
Also known as chrome steel, 52100 is an extremely hard and wear-resistant material. It’s used for parts such as bearings, bushings, and punches.
While the low carbon content makes 8620 alloy steel easy-to-weld, it's the nickel, chromium, and molybdenum content that provides wear resistance.
The addition of lead gives 41L40 the best machinability of all the alloy steel we offer.
A vacuum arc remelting (VAR) casting process gives 9310 superior strength, hardness, and fatigue resistance over other types of alloy steel. It's often machined into heavy duty gears, clutch parts, and ratchets.
Offering excellent resistance to cracking from impact and compression, C300 alloy steel is often used for dies and tooling. It is also known as maraging steel and VascoMax.
These rods, also known as drill blanks, have an undersized diameter for machining your own jobbers'-length drill bits.
These rod sets are supplied in a metal index case with fold-out panels.
Also known as reamer blanks, these rods are hardened for increased abrasion and impact resistance.
Ready for turning in a lathe, these precision-ground rods have a tight diameter tolerance and are held to a strict straightness tolerance.
An oversized diameter allows for finishing to your exact requirements.
Also known as cobalt steel, this M42 tool steel maintains its hardness in high-speed cutting applications that generate intense heat. Use it to make tools for cutting extremely hard materials.
Made from powdered metal, M4 tool steel has a consistent microstructure that gives it outstanding resistance to wear and abrasion. It is comparable to CPM Rex M4.
Precision ground and held to a strict straightness tolerance, these rods are ready for turning in your lathe.
Hardened for increased abrasion and impact resistance, these rods are precision ground with a tight diameter tolerance.
All set for turning in your lathe, these precision-ground rods are held to a strict straightness tolerance.
Ground and held to strict diameter and straightness tolerances, these rods are ready to be turned in a lathe.
The diameter on these rods is precision ground while the straightness is held to a strict tolerance, so they're ready for turning in a lathe.
Resistant to wear, abrasion, and chipping, A11 is a hard material that is often made into punches and stamping tools.
Furnished hardened, P20 tool steel is strong and easy to machine. It has the wear resistance and highly polishable surface needed to fabricate long-lasting molds and dies.
An oversized diameter on these rods allows for finishing to your exact requirements.
Hardened for increased abrasion and impact resistance, these precision-ground rods have a tight diameter tolerance and are ready for turning in your lathe.
Ready for turning in a lathe, these rods are precision ground to a tight diameter tolerance.
To provide corrosion resistance in wet environments, this framing is galvanized.
Connect T‐slotted rails and reinforce joints for structural stability.
Illuminate workstations, enclosures, and machines.
Screw and nut sets or nuts secure brackets and other accessories to rails.
Attach sensors, tubes, and other components to T-slotted framing rails and structures.
Add panels to T-slotted framing to create machine guards and strip doors.
Add mounting feet and casters to T-slotted framing structures to level equipment, anchor legs to the floor, or add mobility.
For repetitive workholding, mount these clamps to T-slotted framing to hold and release parts.
Add rollers to T-slotted framing to create flow rails, ball transfer tables, and other manual conveyors.
Control static and ground T-slotted framing structures with these bonding and grounding components.
Stay organized with hooks, bin boxes, shelves, and tool holders that work with T-slotted framing.
Use hinges to add doors, lids, and machine guards to T-slotted framing.
Align and drill accurate holes in T-slotted rails with these reusable templates.
Secure doors and windows made of T-slotted framing to protect valuables or restrict access for safety.
Fittings come in two pieces to wrap around rails, so you can quickly modify existing structures without disassembling. Use clamp-on framing and fittings to form temporary partitions, modular conveyors, and workstations.
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.
Slide the strut channel into the tube for telescoping length adjustments.
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.
Create continuous runs of channel without corners.
Up to two times the height of regular strut channel, this high-profile channel is stronger than regular strut channel.
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.
For compatibility with quick-connect clamps to secure pipe and conduit without screws and tools, this strut channel has narrow slotted holes.
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.
Securely fasten strut channel to the floor.
Push these brackets into strut channel and tighten the included cam screws for a partially concealed connection.
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.
Designed to wrap around the sides of strut channel, these brackets provide a stronger hold than other strut channel brackets.
A tab on the end of these shelf brackets fits inside the strut channel for extra stability.
Position two strut channels at a 30° to 90° angle, then tighten the bolt to secure.
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.
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.
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.
There's no need for additional fasteners with these nuts—they combine a strut channel nut with a spring and a threaded stud.
Push these nuts into place rather than threading them onto a fastener.
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.
Use with hex nuts to connect threaded rod.
Notches on these washers grip the channel to keep them in place.
Support the corners of strut channel structures.
Create a four-sided raceway for cable, or give a more finished look to strut channel structures.
Cover rough ends of strut channel.
Provide smooth motion between two pieces of strut channel.
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.
Brackets mount on the outside of strut channel to allow trolley movement.
Create posts of varying lengths.
Create strong structures by welding this framing together. Add metal panels to close off openings.
Close off openings in structures while allowing air to pass through.
No need for fasteners—friction holds this framing together. Use press-fit framing and fittings to assemble carts, enclosures, and partitions.
Build lightweight structures, such as light duty machine guards, enclosures, and carts, with framing that is twothirds the weight of aluminum framing.
Bring power to workstations that are not near a wall—these poles mount from the ceiling.
Pick up objects on the ground, grab items on high shelves, and reach into deep tanks.
Use the rounded hook to open and close windows.
Pick up screws, nuts, and other small steel objects.
LEDs light the magnetized tip for picking up screws, nuts, and other small steel objects in dark areas.
Pick up heavier objects than our other magnetic retrievers. These retrievers have a long, fixed shaft, allowing you to reach material in hard-to-reach areas.
The head pivots, so you can pick up screws, nuts, bolts, and other small steel objects from any angle.
Restrict and grant access to an area—these bollards act as a strong physical barrier and have a hinge to fold flat against the ground in either direction.
These bollards flex slightly when bumped by a vehicle to prevent dents and dings.
These are the same guardrails you see along roadways.
Combine rails, posts, and gates to make a custom guardrail system.
During light collisions, these guardrails tilt to absorb impact and minimize damage to a vehicle.
Start with two bases and then stack rails to the desired height.
These guardrails sit low to the ground to protect racks and equipment without restricting access.
Connect rails and posts with included slip-on fittings to quickly assemble a railing.
Combine bases, rails, gates, and toeboards to create a barrier customized to your needs. Base is weighted to allow installation without drilling holes.
Weighted bases allow you to install these railings without drilling holes.
No assembly required with these one-piece railings.
Modular mix-and-match components allow flexible railing configurations.
Combine posts, panels, and doors to create a barrier around equipment.
These panels lift on and off their posts in seconds, so you can protect machinery while providing access for maintenance.
Stand panels up to create enclosures without sinking posts into the ground.
Secure and hold up fencing with these posts.
Designed for use with right-hand, internally threaded rod ends, these rods have right-hand threads on both ends. Use them for remote valve operators, throttle controllers, shifting mechanisms, and virtually any push/pull assembly.
Designed for use with right-hand, externally threaded rod ends, these rods have right-hand threads on both ends. Use them for remote valve operators, throttle controllers, shifting mechanisms, and virtually any push/pull assembly.
Similar to turnbuckles, these rods have right-hand threads on one end and left-hand threads on the other so you can make a linkage that adjusts for tension. Add right- and left-hand threaded rod ends to build your linkages.
Similar to turnbuckles, these rods have right-hand threads on one end and left-hand threads on the other so you can make a linkage that adjusts for tension.
For your compliance and quality assurance needs, these shafts come with a material certificate with a traceable lot number.
Combine these general purpose shafts with a linear bearing and shaft support to create a basic linear motion system.
Drive these stakes into the ground and then slide a foam or corrugated plastic sign over the top.
Due to the welded-wire construction these panels require fewer nuts and bolts, and won’t unravel if you need to cut around a pipe or other obstruction.
Create secure but visible tool and stock rooms.
Support beams and joists.
Grade B7, these threaded rods have a tensile strength about one and a half times stronger than low-strength steel rods. They meet the pressure and temperature requirements of ASTM A193 and are often used to secure pressure tanks, valves, and flanges.
Drive and secure these threaded rods on both ends with the included nuts. They’re Grade B7, so their tensile strength is about one and half times higher than low-strength steel rods.
Made of Grade B7 steel, the tensile strength of these threaded rods is one and a half times higher than low-strength steel threaded rods. They also meet the pressure and temperature requirements of ASTM A193 and are often used to secure pressure tanks, valves, and flanges.
The tensile strength of these metric Grade B7 rods is about one and a half times higher than low-strength steel rods.
Tighten these threaded rods by turning them to the left; once fastened, they resist loosening from counterclockwise motion. Made from Grade B7 steel, their tensile strength is one and a half times higher than low-strength steel rods.
An economical alternative to Grade B7 and Grade B16 threaded rods, these metric Class 8.8 rods are suitable for fastening most machinery and equipment.
Grade B16 threaded rods maintain their strength at higher temperatures than Grade B7 threaded rods. They meet the pressure and temperature requirements of ASTM A193 and are often used to secure pressure tanks, valves, and flanges.
Comparable to Grade 8 steel, these threaded rods have a tensile strength of 150,000 psi, making them about 25% stronger than medium-strength steel rods.
Class 12.9 rods are about 20% stronger than Class 10.9 threaded rods and are for use in heavy machinery.
These Class 10.9 steel threaded rods are about 25% stronger than medium-strength steel rods.
These metric threaded rods are about half the strength of medium-strength steel threaded rods for light duty hanging, mounting, and fastening.
Tighten these threaded rods by turning them to the left; once fastened, they resist loosening from counterclockwise motion. About half the strength of medium-strength steel threaded rods, use them for light duty hanging, mounting, and fastening.
About half the strength of medium-strength steel threaded rods, use these metric fine-thread rods for light duty hanging, mounting, and fastening.
These metric threaded rods tighten when turned to the left; once fastened, they resist loosening from counterclockwise motion. About half the strength of medium-strength steel threaded rods, use them for light duty hanging, mounting, and fastening.
About half the strength of medium-strength steel threaded rods, use these for light duty hanging, mounting, and fastening.
Ideal for environments that require frequent cleaning, such as food and pharmaceutical manufacturing, these rods have a removable cover that protects their threads from dirt and grime.
A hex drive on one end allows these rods to be turned with a hex key for ease of installation.
Connect and separate threaded rods, studs, and other components. These hollow rods have internal threads on both ends, so you can make connections and still pass wiring and other objects through the center of the rod.
Add safety and convenience to your wall and tank ladders. Posts extend above the ladder top and lock in place to guide you and provide stability.
Reduce the chance your concrete will crack from expansion and contraction and other tensile stresses.
Replace hard-to-grip miniature bulbs in equipment such as control panels and indicators. Install new bulbs without leaving behind oil from your fingers that can cause bulbs to burn out.