With a thickness that's precision ground to a tight tolerance, these bars are sometimes called flat stock.

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.

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 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.

Easy to forge, grind, and heat treat, these 1084 high-carbon steel bars offer high strength and resist wear and abrasion.

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.

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.

Also known as flat stock, the thickness on these sheets and bars is held to a tight 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.

4130 alloy steel has a low carbon content that provides good weldability. It's often used for structural applications.

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.

Heat treated for enhanced hardness and strength, A514 alloy steel is suitable for structural applications and supporting heavy loads.

These sheets and bars are precision ground either on all six sides or just on the top and bottom.

An anodized coating bonds to the aluminum surface to improve wear and corrosion resistance.

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.

More corrosion resistant and easier to form than multipurpose 6061 aluminum, 6063 is primarily used for exterior railings, decorative trim, and door frames.

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.

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.

These sheets are clad in 1230 aluminum for an added layer of corrosion resistance.

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.

Designed for use as a production injection mold and blow mold, tk Ultra 7 is extremely strong with a hard surface and excellent thermal conductivity.

One side of these sheets is painted in your choice of gloss color, while the other side is painted gloss white.

The honeycomb design provides a higher strength-to-weight ratio than solid sheets.

Highly corrosion resistant, 5083 is largely used around salt water for building ships and oil rigs. It maintains its strength in extreme cold, so it's also used to make cryogenic pressure vessels and tanks.

5086 aluminum is used on ships, oil rigs, tanks, and pressure vessels because of its excellent saltwater resistance and formability.

Known for being one of the easiest types of aluminum to weld, 5052 is also recognized for its ability to resist salt water. It's widely used for the bodies of boats, buses, trucks, and trailers, as well as for chemical drums.

These sheets are tempered to a 1/2-hard or full-hard state to make them over twice as strong as standard 1100 aluminum.

Made of 1000 series aluminum which is 99% pure, this aluminum offers superior formability, corrosion resistance, and electrical conductivity. It's frequently fabricated into raceways, decorative trim, and other parts where strength and hardness are not required.

Made of 5083 aluminum, these cast tool and jig plates are more corrosion resistant and respond better to anodizing than MIC6. This material is comparable to Alca 5 and ATP 5.

Polished to either a brushed or mirror-like finish, this material is often used to fabricate decorative enclosures and industrial workstations.

This material has tighter tolerances than standard 304 stainless steel.

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.

One side of these sheets has a brushed finish with grain lines running in one direction to mask fingerprints.

This material machines faster with less wear on cutting tools than standard 316 stainless steel. It's also called Prodec and Project 70+.

One side of these sheets is polished to either a brushed or mirror-like finish.

The width and thickness are oversized for finishing to your exact requirements.

Often used for fasteners and valves, 410 stainless steel withstands wear caused by abrasion.

This material is hardened for increased wear resistance over standard 420 stainless steel.

This material is hardened for improved strength and wear resistance.

Widely used to fabricate fasteners and engine components, A286 will maintain its strength as temperatures rise.

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.

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.

The thickness on these bars is precision ground to a tight tolerance.

These sheets and bars are precision ground to a tight thickness tolerance.

The thickness on these bars is precision ground to a tight tolerance.

These precision-ground sheets and bars are held to a tight thickness tolerance.

Oversized for finishing to your exact requirements.

Often called architectural bronze, 385 brass is easy to machine and has excellent formability when heated. It is typically used for handrails, ornamental trim, and hardware, such as hinges and lock bodies.

The most formable brass we offer, 260 offers better weldability than 300 series brass but it’s not as machinable. Sometimes called cartridge brass, it's commonly used for ammunition casings, radiator components, and decorative door hardware.

One side of these sheets has a brushed finish with grain lines running in one direction to mask fingerprints.

A lead-free alternative to 485 brass, 464 brass offers good weldability, strength, and wear resistance. It’s widely used for marine hardware, pump and propeller shafts, and rivets.

Polished on one side to a reflective, mirror-like finish.

One side of these sheets has a brushed finish with grain lines running in one direction to mask fingerprints.

182 copper is stronger, harder, and more wear resistant than 110 copper. Also known as RWMA Class 2 chromium copper, it's commonly used in resistance welding, for circuit-breaker parts, and for molds to make plastic parts.

Make plates for offshore drilling platforms, water boxes, valves, and other marine equipment that withstands salt water. Also known as cupro nickel, these copper nickel sheets resist rusting better than stainless steel.

Because 510 bronze is very strong and formable, it is the best choice for applications involving repetitive motion, such as springs and bellows.

Able to withstand greater heat than molybdenum and other high-temperature metal, this chemically pure tungsten is ultra dense for use in high-heat parts in vacuum furnaces, heat shields, and radiation shields.

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.

With 99.9% tin content, this material is considered commercially pure. It's commonly used to make gaskets and filters.

This Alloy 22 nickel resists highly corrosive environments better than similar nickel alloys, including 625 and C-276.

200 nickel sheets and bars are over 98% pure, so they offer corrosion resistance along with good formability, weldability, and electrical conductivity. They're often used in food-processing equipment and chemical shipping drums.

A blend of nickel, chromium, and molybdenum gives these 625 nickel sheets 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.

Strong, corrosion-resistant, and stable for long-term use at up to 1800° F, these Haynes® 230 nickel sheets are often used in furnaces and heat-treatment facilities.

Because Invar 36 holds its size and shape when temperatures rise, these nickel-iron alloy sheets are the go-to material when dimensional stability is required. They are commonly used when precision is a priority, such as for scientific instruments and optical devices.

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.

The addition of carbon gives this material the ability to divert static electricity faster than antistatic UHMW.

Also known as Tivar H.O.T., this material lasts up to 10 times longer in high-temperature applications than standard UHMW.

If a chip of this material breaks off, it can be located by metal detectors to reduce contamination risks.

This oil-filled material is self-lubricating for an extra-slippery surface.

This cast nylon 6 material is easier to machine than other types of nylon. It’s comparable to Nylatron and Nycast.

This nylon stays lubricated over time because it’s filled with oil. Use it to fabricate parts for hard-to-reach places where adding lubricants would be difficult.

Also known as nylon 6/6, this general purpose material is often used for bearings, gears, valve seats, and other high-wear parts.

Because this 6/12 material absorbs less water than standard nylon 6/6, it holds its shape better. It’s often machined into hose fittings and valve components.

Designed for extreme wear resistance, this Kevlar-filled nylon 6/6 material lasts up to 20 times longer than unfilled nylon. Also known as Hydlar Z, it is often used for parts that are continuously exposed to wear and abrasion, such as wear strips and bushings.

Because PVC resists many acids and alkalies, it’s widely used for tanks and in chemical-processing applications. Also known as PVC Type 1.

CPVC is just as chemical resistant as standard PVC Type 1 and can handle hotter temperatures up to 200° F.

Widely used for vehicle interiors and equipment housings, this blended material maintains its physical properties after thermoforming. It is comparable to Kydex.

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.

This material prevents the buildup of static charges.

Also known as starboard, these sheets and bars won’t degrade when exposed to salt water, humidity, and UV light.

Also known as pipe-grade HDPE, these sheets are about four times more impact resistant than standard HDPE and hold up outdoors, and in wet environments.

The addition of glass fibers to this polycarbonate increases tensile strength for use in structural applications.

Because ABS maintains its toughness even after thermoforming, it’s often made into storage cases, tote trays, equipment housings, and protective gear.

Because this polypropylene resists swelling when exposed to water, it’s often fabricated into containers and parts for laboratory equipment.

Widely used in semiconductor applications, this polypropylene meets UL flame-retardance standards.

Use Noryl PPO for electrical insulating applications where moisture is a concern. It remains dimensionally stable over time, even when temperatures fluctuate.

A layer of soft LDPE is sandwiched between two thin layers of aluminum for strength and rigidity.

Known for its electrical insulating properties, this polystyrene is often used for cable connectors, electrical housings, and in microwave applications. It is also known as Rexolite.

The combination of high strength and water resistance, along with a variety of color choices, makes this opaque cast acrylic useful for outdoor signs and containers. It's also known as Lucite and Plexiglas® Acrylic.

Often fabricated into signs, packaging, and light duty housings, polystyrene is easy to thermoform.