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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 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.
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.
Also known as black-annealed wire.
This wire is zinc galvanized for good corrosion resistance.
Coated with PVC for corrosion resistance, this carbon steel wire will stand up to outdoor use.
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.
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.
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.
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.
Exceptional hardness makes AR500 carbon steel more resistant to wear and impact than other carbon 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.
Ready for turning in your lathe, these rods are precision ground and held to a strict straightness tolerance.
These rods are hardened for increased abrasion and impact resistance. Also known as chrome-moly steel, 4140 alloy steel resists fracturing from repeated stress.
The chrome plating on these rods increases corrosion resistance.
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.
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.
Also known as flat stock, the thickness on these sheets and bars is held to a tight tolerance.
These sheets and bars are hardened for increased abrasion and impact resistance. Also known as chrome-moly steel, 4140 alloy steel resists fracturing from repeated stress.
Because the thickness is oversized, you can finish these bars to your exact requirements.
The thickness is oversized for finishing to your exact requirements.
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.
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.
Also known as chrome steel, 52100 is an extremely hard and wear-resistant material. This wire is often used for small-diameter bearings, bushings, and punches.
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.
4130 alloy steel has a low carbon content that provides good weldability. It's often used for gears, fasteners, and structural applications.
4130 alloy steel has a low carbon content that provides good weldability. It's often used for structural applications.
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.
Often used for gears, shafts, and ball screws, 4150 alloy steel resists wear from friction and abrasion.
The addition of lead gives 41L40 the best machinability of all the alloy steel we offer.
While the low carbon content makes 8620 alloy steel easy-to-weld, it's the nickel, chromium, and molybdenum content that provides wear resistance.
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.
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.
Combining strength with weldability and formability, A572 alloy steel is an economical choice for structural components, such as channels, beams, and framing. It has a low carbon content, making it easy to weld with a variety of welding methods.
This wire is coated with oil for corrosion resistance and lubricity. Use it for bundling and as tag wire.
Also known as music wire.
Always have the right size wire on hand with a 72-piece assortment.
Also known as blue-tempered steel.
Also known as scaleless steel.
5160 alloy steel handles repeated cycles of stress without breaking just like spring steel. It’s often used to make flat springs.
An oversized diameter allows for finishing to your exact requirements.
Precision ground to a tight diameter tolerance, these rods are ready for turning in your lathe.
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.
Ductile cast iron is strong, resilient, and able to handle repeated stress without breaking.
With a high amount of ferrite, these cast iron rods are easier to machine without cracking than other impact-resistant ductile cast iron rods. Use them to create bushings, gears, pulleys, and pistons.
Easier to machine without cracking than other impact-resistant ductile cast iron bars, these cast iron bars contain a high amount of ferrite. Use them to make cylinder and die blocks, rotary tables, and rail spacers.
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.
These bars are precision ground to a tight thickness tolerance.
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.
Ready for turning in a lathe, these rods are precision ground to a tight diameter tolerance.
Hardened for increased abrasion and impact resistance, these precision-ground rods have a tight diameter tolerance and are ready for turning in your lathe.
These precision-ground sheets and bars are held to a tight thickness tolerance.
With an oversized thickness, length, and width, these bars can be finished to your exact requirements.
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.
These sheets and bars are precision ground to a tight thickness tolerance.
The thickness, length, and width are oversized for finishing to your exact requirements.
Ground and held to strict diameter and straightness tolerances, these rods are ready to be turned in a lathe.
These W1 bars have lower amounts of alloy elements than other tool steels for excellent machinability.
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.
Also known as flat stock, these bars have an oversized thickness, length, and width for finishing to your exact requirements.
The thickness on these bars is precision ground to a tight tolerance.
All set for turning in your lathe, these precision-ground rods are held to a strict straightness tolerance.
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.
Oversized for finishing to your exact requirements.
Resistant to wear, abrasion, and chipping, A11 is a hard material that is often made into punches and stamping tools.
From cookware to chemical-processing equipment, 304 stainless steel is a good all-around choice for a wide range of applications.
This wire bounces back after bending. It’s often used to construct springs and wire rope.
This material has tighter tolerances than standard 304 stainless steel.
Polished to either a brushed or mirror-like finish, this material is often used to fabricate decorative enclosures and industrial workstations.
Bend this wire and it will stay put. It’s frequently used as tying wire and locking wire.
When compared to standard 304 stainless steel, this material can be machined faster with less wear on cutting tools. It's also called Prodec and Project 70+.
The textured surface hides fingerprints and dents. This material is widely used in decorative applications, such as partitions and handrails.
Widely used for fabricating fittings and fasteners, 303 stainless steel machines quickly without sticking to cutting tools.
This material has tighter tolerances than standard 303 stainless steel.
When bent, this wire will stay in place. It's widely used as tying and locking wire.
Offering outstanding resistance to surface wear and corrosion, Nitronic 60 stainless steel is often used for shafts, fasteners, and valves.
Hardened for improved strength and wear resistance, these rods are precision ground to a strict diameter tolerance. Use them for turning applications in your lathe.
Each piece is precision ground to offer tighter tolerances than standard 17-4 PH stainless steel.
This material is hardened for improved strength and wear resistance.
With a higher chromium content than 15-5 PH stainless steel, this high-strength 17-4 PH offers better corrosion resistance. It is also known as 630 stainless steel.
Also known as Project 70+, this material machines faster with less wear on cutting tools than standard 17-4 PH stainless steel.
Offering outstanding strength, 15-5 PH stainless steel is often used for gears and shafts.
13-8 PH stainless steel can be hardened at lower temperatures than other heat-treatable types of stainless steel. It is widely used for fittings, pins, and lock washers.
Widely used to fabricate fasteners and engine components, A286 will maintain its strength as temperatures rise.
The addition of molybdenum gives 316 stainless steel excellent corrosion resistance. Use it in a variety of marine and chemical-processing applications.
This material is precision ground to offer tighter tolerances than standard 316 stainless steel.
These rods have been passivated for enhanced corrosion resistance.
This material machines faster with less wear on cutting tools than standard 316 stainless steel. It's also called Prodec and Project 70+.
Bend this wire and it will stay in place. It's widely used as tying and locking wire.
This wire will spring back after bending. It's often used to make springs and wire rope.
Stronger and more corrosion resistant than 316 stainless steel, Nitronic 50 is especially well-suited for use as shafts and fixtures in marine environments.
2205 stainless steel resists cracking even when faced with a combination of tensile stress, corrosive chemicals, and heat. Also known as duplex stainless steel, it has twice the strength of 316 stainless steel. Use it for high-pressure applications in caustic environments.
A high nickel content allows Alloy 20 stainless steel to stand up to harsh chemicals in caustic environments. It's also known as Carpenter 20.
Hardened for superior wear resistance, these rods are precision ground to a tight diameter tolerance so they’re ready for turning in a lathe.
One of the most machinable types of stainless steel available, 416 contains sulfur for fast machining without clogging cutting tools. It's used for gears, screws, and shafts.
Precision ground to a tight diameter tolerance, these rods are all set for turning applications in a lathe.
With a diameter that’s held to a close tolerance, this material is hardened for increased wear and abrasion resistance.
One of the hardest types of stainless steel after heat treating, 440C offers excellent wear and abrasion resistance. It's often used for bearings, valves, and knife blades.
Ready for turning in your lathe, these rods are precision ground to a tight tolerance.
The width and thickness are oversized for finishing to your exact requirements.
Bend this wire and it will stay in place. It's commonly used as tying and locking wire.
Often used for fasteners and valves, 410 stainless steel withstands wear caused by abrasion.
Precision ground on the top and bottom to a tight tolerance.
Suitable for making molds, 420 stainless steel is a hard, wear-resistant material that can be finely polished to a very smooth surface.
Also called flat stock, these precision-ground bars are held to tight thickness and width tolerances.
The addition of vanadium and carbon gives 420V stainless steel excellent wear resistance. It can replace tool steel in highly abrasive applications.
309/310 stainless steel has high levels of chromium and nickel to provide good corrosion resistance at elevated temperatures. It's often used in heat exchangers and furnaces.
Able to withstand temperatures up to 2100° F, 330 stainless steel is widely used as components for industrial furnaces, gas turbines, and boilers. It resists cracking when exposed to heating and cooling cycles.
The titanium content of 321 stainless steel preserves corrosion resistance around weld points.
Combine these general purpose shafts with a linear bearing and shaft support to create a basic linear motion system.
Mount these externally threaded shafts into tapped holes rather than using a shaft support, or attach a hex nut, shaft collar, or other threaded accessory.
Internal threads allow you to mount these shafts onto threaded studs and fasteners, no shaft supports needed.
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 your compliance and quality assurance needs, these shafts come with a material certificate with a traceable lot number.
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.
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.
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.
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.
Thread these shafts into a tapped hole to support idler sprockets and pulleys in tensioning applications. They have a retaining-ring groove, retaining ring, and spacers 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.
Attach threaded accessories, such as mixer propellers and fan blades, to the end of these shafts.
Clip retaining rings into the grooves to separate and position gears, sprockets, and bearings.
The diameter of these shafts is slightly smaller than listed, so precision ball bearings (ABEC-3 and above) slide on without any tools.
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.
Connect these internally threaded shafts directly to threaded components, or use a fastener to secure.
Create a compact linear and rotary motion system for applications requiring complex, fast movements, such as robotics.
From one compact system, transmit linear or rotary motion or both at once (sometimes called spiral motion). Because of these different motions, these ball screw/splines and bearings create efficient, fluid movements in complex automated applications, such as pick-and-place robots.
Often used in wet and dirty environments, these sleeve splines and bearings create a compact linear and rotary motion system.
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.
These Class 10.9 steel threaded rods are 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.
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.
The tensile strength of these metric Grade B7 rods is about one and a 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.
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.
About half the strength of medium-strength steel threaded rods, use these for light duty hanging, mounting, and fastening.
These metric threaded rods are about half the strength of medium-strength steel threaded rods 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.
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.
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.
18-8 stainless steel threaded rods have good chemical resistance.
Available in metric sizes, these 18-8 stainless steel threaded rods have good chemical resistance.
Tighten these threaded rods by turning them to the left; once fastened, they resist loosening from counterclockwise motion.
Stronger and more wear resistant than 18-8 stainless steel, these threaded rods are mildly chemical resistant. They meet the pressure and temperature requirements of ASTM A193 and are often used to secure pressure tanks, valves, and flanges.
Grade B8 threaded rods meet the pressure and temperature requirements of ASTM A193 and are often used to secure pressure tanks, valves, and flanges. They have good chemical resistance.
More corrosion resistant than 18-8 and 410 stainless steel threaded rods, these 316 stainless steel rods have excellent resistance to chemicals and salt water.
These metric 316 stainless steel threaded rods are more corrosion resistant than 18-8 and 410 stainless steel threaded rods and have excellent resistance to chemicals and salt water.
Grade B8M threaded rods meet the pressure and temperature requirements of ASTM A193 and are often used to secure pressure tanks, valves, and flanges.
These hardened 316 stainless steel threaded rods are 40% stronger than standard Grade B8M threaded rods. They meet the pressure and temperature requirements of ASTM A193 and are often used to secure pressure tanks, valves, and flanges.
The most corrosion resistant stainless steel threaded rods we offer, these Alloy 20 stainless steel threaded rods contain nickel to withstand exposure to sulfuric, phosphoric, and nitric acids.
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.
Screw these studs into a tapped hole and use them as a pivot point, hinge, shaft, or locator pin.
Also known as setup studs, these studs withstand sideways forces better than fully threaded studs because they have an unthreaded middle that is stronger than the treaded ends.
Known as setup studs, these studs withstand sideways forces better than fully threaded studs because they have a strong unthreaded middle.
Screw the threaded end of these metric studs into a tapped hole and use the unthreaded end as a pivot point, hinge, shaft, or locator pin.
Also known as tap-end, fixture, and setup studs, these studs have Class 5 friction-fit threads on one end to resist loosening and Class 2A standard threads on the other end for attaching a nut.
Also known as tap-end, fixture, and setup studs, these studs have Class SK6 friction-fit threads on one end to resist loosening and Class 6g standard threads on the other end for attaching a nut.
Also known as hood pins, these studs have a cotter pin lodged through a drilled hole in the unthreaded portion for light duty holding, such as securing access panels and locking other fasteners.
The shoulder’s diameter is slightly smaller than listed, so these studs fit most machinery and equipment.
Pass these studs through a hole and weld them in place.
Weld these studs to uncoated steel surfaces.
These studs have good chemical resistance. Weld them to stainless steel surfaces.
These steel studs are zinc plated to resist corrosion in wet environments.
18-8 stainless steel studs have good chemical resistance.
Turn these studs with a hex key for ease of installation.
These studs are also known as hanger bolts—use them to hang, mount, and fasten parts to wood structures.
These metric 316 stainless steel studs have excellent resistance to chemicals and salt water. Also known as hanger bolts, use them to hang, mount, and fasten parts to wood structures.
18-8 stainless steel studs have good chemical resistance and may be mildly magnetic. Also known as hanger bolts, use them to hang, mount, and fasten parts to wood structures.
Stick these studs to nearly any surface for a strong bond and a watertight seal.
316 stainless steel studs have excellent resistance to chemicals and salt water.
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.
A hollow center allows these studs to be used as an axle, a vent, or a passageway for wiring.
Also known as dowel screws, use these to join two pieces of wood.
Add a stud to thin material when you only have access to one side.
These stud anchors strengthen the parts of buildings where steel framing connects to concrete. They’re also known as Nelson studs.
Also known as single-start ball screws and nuts, these have a single thread that runs the length of the screw. They operate with more torque than fast-travel ball screws and nuts.
Multiple thread channels (also known as thread starts) create faster linear travel than ball screws with a single thread start.
Keep your ball screw spinning without the ball nut damaging your system. When the ball nut reaches the stop pin at either end of the ball screw, it disengages and begins to idle.
Found in hand-powered clamps, vises, grates, doors, and work tables, lead screws and nuts have broad, square threads that are well suited for quick assembly, high clamping forces, and lifting and lowering heavy objects.
These metric lead screws and nuts have broad, square threads that are well suited for quick assembly, high clamping forces, and lifting and lowering heavy objects. They're commonly found in hand-powered clamps, vises, grates, doors, and work tables.
Multiple thread channels (also known as thread starts) create faster linear travel than lead screws with a single thread start.
Also known as single-start and self-locking lead screws and nuts, these have a single thread that runs the length of the screw. The nut travels only when the screw turns, so your system won't unexpectedly move when the lead screw is at rest.
Also known as trapezoidal-thread lead screws and nuts.
A crisscross thread pattern allows you to drive the nut back and forth without changing the lead screw's direction of rotation. When the nut reaches one end of the lead screw, it changes direction and travels back to the other end.
Precision ground to create more points of contact, these roller screws and nuts are highly accurate and handle much higher loads than ball screws and nuts of the same size.
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.
Made of recycled steel mill scale and reground plastic, these sheets are a sustainable, low-cost alternative to standard composites often used as counterweights, such as lead and steel.
Reduce the chance your concrete will crack from expansion and contraction and other tensile stresses.
Grind these hardened steel blanks to the size and shape you need.
Combine fast-threading components to build a clamping assembly.