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Combine with a machine key to transmit torque to gears, sprockets, and other power transmission components.
Also known as trapezoidal-thread lead screws and nuts.
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.
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.
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.
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.
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.
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 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.
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.
Use for power transmission and structural applications that involve extreme impact, heat, and wear.
4130 alloy steel has a low carbon content that provides good weldability. It's often used for gears, fasteners, and structural applications.
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.
Often used for gears, shafts, and ball screws, 4150 alloy steel resists wear from friction and abrasion.
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.
Ductile cast iron is strong, resilient, and able to handle repeated stress without breaking.
From cookware to chemical-processing equipment, 304 stainless steel is a good all-around choice for a wide range of applications.
This material has tighter tolerances than standard 304 stainless steel.
Widely used for fabricating fittings and fasteners, 303 stainless steel machines quickly without sticking to cutting tools.
Offering outstanding resistance to surface wear and corrosion, Nitronic 60 stainless steel is often used for shafts, fasteners, and valves.
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.
This material is hardened for improved strength and wear resistance.
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.
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.
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.
Often used for fasteners and valves, 410 stainless steel withstands wear caused by abrasion.
Precision ground and held to a strict straightness tolerance, these rods are ready for turning in your lathe.
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.
The most widely used aluminum, 6061 is fabricated into everything from pipe fittings and containers to automotive and aerospace parts. It is strong and corrosion resistant, plus it's easy to machine and weld.
These rods and discs are precision ground to offer tighter tolerances than standard 6061 rods and discs.
An anodized coating forms a bond with the aluminum surface to improve wear and corrosion resistance.
As the strongest multipurpose aluminum we offer, 6013 aluminum has the same good corrosion resistance, weldability, and machinability as 6061 with increased strength. 6013 is often fabricated into high-stress machine parts.
Originally developed for aircraft frames, uses for 7075 aluminum now include keys, gears, and other high-stress parts. It is often used as a replacement for 2024 aluminum because it’s stronger and provides similar performance in all other aspects.
While 2024 aluminum was initially designed for structural components in aircraft, it's now widely used when a high strength-to-weight ratio is needed, such as for gears, shafts, and fasteners. It offers similar performance to 7075 aluminum, but it’s not as strong.
2011 has the best machinability of all the aluminum alloys. It is the most selected aluminum for screws, tube fittings, hose parts, and other items that require extensive machining.
With the highest lead content of all the brass alloys, 360 offers the best machinability. Often called free-machining and free-cutting brass, it stands up to high-speed drilling, milling, and tapping operations with minimal wear on your tools. It’s commonly used for gears, pinions, and lock components.
Diameter is oversized to allow for finishing.
These rods are precision ground for a tight diameter tolerance of ±0.0005".
Powdered bronze is pressed and then impregnated with SAE 30 oil to make this material self-lubricating.
Known for its ability to resist stress cracking and fatigue, 544 bronze also offers good formability and excellent machinability. It's commonly called phosphor bronze.
954 bronze contains a minimum of 10% aluminum for strength and weldability. It is also known as aluminum bronze. It's widely used for bearings, bushings, valve bodies, and worm gears.
An easier-to-machine alternative to 932 bronze, 936 also has better corrosion resistance. It's also called modified SAE 64.
Frequently called manganese brass, 863 bronze can handle heavy loads and high speeds when properly lubricated.
AMPCO® 18 is a premium aluminum-bronze alloy that combines strength with superior wear resistance.
For a good combination of strength, machinability, and weldability, choose 955 bronze.
Offering high electrical conductivity and formability, 110 copper is 99.9% pure. Also known as ETP copper, it's often used in electrical applications, such as for bus bars and wire connectors, as well as for flashing, gaskets, and rivets.
With 99.99% copper content, 101 copper has higher purity than 110 copper, resulting in superior electrical conductivity. It's commonly called OFE and OFHC copper. Use it in electrical applications, such as for coaxial cables and terminal lugs.
Grade 5 is the strongest of all the titanium alloys thanks to its higher aluminum and vanadium content. It offers a versatile mix of good corrosion resistance, weldability, and formability. It's often used for turbine blades, fasteners, and spacer rings.
Because Grade 2 titanium is 99% pure, it is more corrosion resistant than Grades 5 and 9 but not as strong. It has good formability and weldability. Common uses include chemical processing equipment, heat exchangers, and marine hardware.
A blend of nickel, chromium, and molybdenum gives these 625 nickel rods the strength, weldability, and corrosion resistance necessary for use in expansion joints, exhaust systems, and marine components. They are comparable to Inconel 625 and Haynes 625.
Often used for cryogenic tanks and fasteners, these 718 nickel rods will maintain their high strength in temperatures from -300° to 1200° F, even after long-term exposure. They are comparable to Inconel 718.
Cut and thread discs and other parts that draw corrosion away from nearby metal in water tanks, heat exchangers, and marine applications.
Delrin® acetal resin, also known as acetal homopolymer, is stronger and stiffer than acetal copolymer.
The addition of PTFE provides a more slippery, wear-resistant surface than standard Delrin® acetal resin. It’s commonly fabricated into pump components, gears, and bearings.
An economical alternative to Delrin® acetal resin, this acetal copolymer offers similar wear resistance.
A silicone additive gives this material a self-lubricating surface that reduces friction and extends the life of your parts.
Also known as nylon 6/6, this general purpose material is often used for bearings, gears, valve seats, and other high-wear parts.
The addition of MDS results in a nylon with exceptional wear resistance as well as self-lubricating properties.
This cast nylon 6 material is easier to machine than other types of nylon. It’s comparable to Nylatron and Nycast.
Use these cast nylon 6 rods to make sheaves, bushings, and pulleys. All withstand higher temperatures and are easier to machine than standard nylon 6/6 rods.
In addition to a low-friction surface that prevents sticking and binding, this tough material is impact and wear resistant to handle the scuffs, scrapes, and strikes that other plastics can’t.
This material suppresses static charges to prevent dust from building up.
This oil-filled material is self-lubricating for an extra-slippery surface.
Because PVC resists many acids and alkalies, it’s widely used for tanks and in chemical-processing applications. Also known as PVC Type 1.
Offering greater impact resistance than standard PVC Type 1 with similar chemical resistance, this PVC Type 2 is widely used for parts that are subject to shock.
CPVC is just as chemical resistant as standard PVC Type 1 and can handle hotter temperatures up to 200° F.
Because this polypropylene resists swelling when exposed to water, it’s often fabricated into containers and parts for laboratory equipment.
Practically nonabsorbent, HDPE won't swell when exposed to moisture. It is denser and more rigid than LDPE, plus it's more chemical resistant.
Because ABS maintains its toughness even after thermoforming, it’s often made into storage cases, tote trays, equipment housings, and protective gear.
One of the softest and most flexible plastics we offer, LDPE is more formable than HDPE.
When moisture-resistant polyester is combined with PTFE, the result is this self-lubricating material. It’s also called Hydex and PBT.
Polyester resists swelling in wet environments.
Known for its naturally slippery surface, PTFE surpasses most plastics when it comes to chemical resistance and performance in extreme temperatures.
This glass-filled PTFE is more rigid than standard PTFE for increased durability in high-stress applications.
Also called reprocessed and mechanical-grade PTFE, this material is an economical alternative to standard PTFE.
Not only does PEEK provide superior wear resistance in repetitive processes, it is also resists wear caused by abrasion. PEEK can be used as a lightweight substitute for metal parts in chemical-processing applications.
Often used for circuit-breaker housings, manifolds, and semiconductor components, Ultem PEI offers excellent electrical-insulating properties.
At only half the weight of glass, polycarbonate maintains excellent impact resistance across a wide temperature range. It's comparable to Lexan, Hyzod, Tuffak, and Makrolon.
Cast acrylic is easier to machine than extruded acrylic. It's comparable to Lucite and Plexiglas® Acrylic.
A good all-around choice, Garolite G-10/FR4 is strong, machinable, and electrically insulating. It meets UL 94 V-0 for flame retardance.
Garolite CE is often fabricated into parts where high strength is not required.
Using nothing more than standard high-speed steel tooling, Garolite LE can be machined into intricate parts.
Often used to create prototype components, these ceramic rods and discs come semi-fired so they can be machined using conventional metalworking tools.