The Complete Product Guide

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The Complete Product Guide

Browse every material we carry — expand any category to explore alloys, grades, available forms, and specs.

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Alloy Steel contains a combination of iron and other elements such as manganese, chromium, or nickel. This combination enhances the properties of the steel, making it stronger, more durable, and resistant to wear and corrosion. Commonly used in automotive, aerospace, and construction due to its high strength-to-weight ratio and versatility.

Offers good strength and weldability without compromising steel abrasion and impact resistance. Typically used in structural applications, including gears, fasteners, and some aircraft exterior.
High strength, high fatigue strength, toughness, torsional strength, and impact and abrasion resistance. Typically used in aerospace, oil, gas, automotive, agricultural, and defense industries — specifically gears, shafts, spindles, fixtures, and collars.
Excellent toughness, ductility, wear resistance, and strength. Typically used in cams, drill collars, bolts, couplings, reamers, axles, shafting, piston rods, rams, hydraulic shafts, gears, sprockets, valves, spindles, and other heavy-duty machining components.
Good mixture of high strength, impact control, and machinability. Typically used in the aerospace, automotive, gas, and oil industries.
High strength, toughness, wear resistance, and fatigue strength. Typically used in military aircraft, automotive systems, hydraulic parts, machine tools, and steel crankshafts.
A medium-strength alloy with good toughness, strength, and core strength. Typical uses include gears, cranks, shafting, axles, bushings, heavy-duty pins, bolting, springs, hand tools, and other machinery parts.
Specializes in high core strength applications with good strengths, high toughness, hardenability, core strength, and very high fatigue strength. Typically used in gears, crankshafts, heavy-duty gears, and the automotive, trucking, and aerospace industries.
Maraging Steel Alloy is a carbon-free iron-nickel blend with hints of aluminum, titanium, cobalt, and molybdenum. Results in a very high strength, low weight metal often used in the aerospace industry.
Maraging Steel Alloy is a carbon-free iron-nickel blend with hints of aluminum, titanium, cobalt, and molybdenum. Results in a very high strength, low weight metal often used in the aerospace industry.
Maraging Steel Alloy is a carbon-free iron-nickel blend with hints of aluminum, titanium, cobalt, and molybdenum. Results in a very high strength, low weight metal often used in the aerospace industry.

A lightweight, silvery-white metal made by refining bauxite ore. Known for its high strength-to-weight ratio, corrosion resistance, and good weldability/machining characteristics. Widely used in automotive, aerospace, construction, and other industries requiring strong yet lightweight materials.

AKA "commercially pure aluminum" with great corrosion resistance and formability.
Known for superior corrosion resistance, formability, conductivity, and high weldability. Not used in applications requiring high strength or hardness. Typically used for chemical equipment, food equipment, decorative parts, lighting equipment, and heat exchangers.
Extremely easy to machine with good mechanical properties and excellent surface finish capabilities. Average strength and weldability; doesn't have high corrosion resistance. Typically used for screw parts and small precision parts for cameras, clocks, speedometers, etc.
Exhibits high strength, fatigue resistance, average machinability, poor weldability, and lower corrosion resistance. Often used in aerospace applications, bolts, clock parts, hydraulic valve parts, nuts, pistons, and gears.
Known for excellent corrosion resistance, good workability, and is weldable. Typically used in chemical tanks, trim, pressure vessels, piping, and decorative parts.
A 98% pure aluminum alloy that exhibits excellent formability, corrosion resistance, and weldability. Commonly used in applications that require higher strength than 1100 aluminum.
Known for good formability and commonly used in applications requiring high workability. The weakest non-heat treatable alloy of aluminum, but can be hardened through cold working.
The aluminum alloy most suited to forming operations, with excellent workability and higher strength than most other alloys. Not heat treatable; fair machinability; very good corrosion resistance; easily welded. Typically used in aircraft fuel and oil lines, fuel tanks, sheet metal, lighting, wire, and rivets.
Aluminum 5080P™ is cast plate known for its stability and consistency between plates. Has superior flatness and dimensional tolerances on the thickness, making it popular for tooling and base plates.
A non-magnetic, heat-treatable alloy with superior corrosion resistance, moderate strength, and good formability. Commonly used in marine applications. Stronger than 5052 but weaker than 5086.
Most commonly used in marine applications. Moderate strength, good formability, easily weldable, easily heat treatable, with superior corrosion resistance. Typically used in pressure vessels, cryogenics, oil rigs, gas piping, armor, and marine applications.
An aerospace alloy with moderate strength, good formability, and superior corrosion resistance. Heat-treatable and can be easily welded or brazed.
Medium strength alloy more closely related to 6063 than 6061, with more magnesium than 6063. Mainly found in Europe with metric sizes. Excellent anodizing properties, high strength when heat treated, but low ductility.
The most commonly used aluminum alloy due to its strength, heat treatability, easy machining, and weldability. Typically used in aircraft, cameras, couplings, marine fittings and hardware, electrical components and connectors, decorative hardware, pins, brakes, hydraulic pistons, valves, and bicycle frames.
Often called "architectural aluminum" due to its exceptionally smooth surface finish. Suited for applications where appearance is more crucial than strength. Good forming, fair machining, and excellent anodizing. Typically used in pipe, railing, furniture, and decorative materials.
Best suited for applications involving moderate strength and maximum electrical conductivity. Similar to alloy 6063 with minor chemistry changes to enhance electrical conductivity. Typically used in bus bar.
Designed for operations where significant machining is required. Good strength and corrosion resistance, excellent machining that also partially lubricates the cutting tool. Polishes to an exceptional finish. Typically used in camera parts, couplings, marine fittings, decorative hardware, hinge pins, knobs, nuts, oil line fittings, and valve parts.
Similar to 7075 but less quench sensitive, allowing it to maintain strength properties over time in thick sections. Better corrosion resistance, exfoliation resistance, and toughness than standard high strength alloys. Very popular in aerospace for bulkheads, fuselages, and wing skins.
"Aircraft grade" with excellent mechanical properties — good ductility, toughness, fatigue resistance, and one of the strongest aluminum alloys available, comparable to steel. Commonly used in aircraft, marine, and automotive structural parts, as well as firearms, rock climbing equipment, bicycle frames, and glider frames.
A heat-treatable alloy that exhibits high hardenability, strength, and damage tolerance. Typically used for load-bearing structural parts in aircraft.
Provides high strength, fracture toughness, and resists fatigue crack propagation. An aircraft alloy derived from 7075 aluminum.
Aluminum MIC-6® is cast plate known for its stability and consistency between plates. Has superior flatness and dimensional tolerances on the thickness, making it popular for tooling and base plates.
QC-10® has high strength, hardness, durability, thermal conductivity, and good corrosion resistance. An aluminum mold plate alloy used for production injection and blow mold applications.

A copper-based alloy containing beryllium (0.5%–3% by weight). Exhibits exceptional strength, hardness, non-magnetic properties, and high electrical and thermal conductivity. Suitable for electrical connectors, springs, non-sparking tools, aerospace components, and precision instruments.

Non-magnetic, non-sparking, strong, hard, wear resistant, durable, and thermally/electrically conductive.
Excellent corrosion resistance, workability, machinability, and formability. Especially useful in applications requiring high strength, fatigue resistance, wear resistance, and electrical conductivity. Typically used in springs, flexible metal hose, washers, retaining rings, bushings, valves, firing pins, navigational equipment, and non-sparking safety tools.
MoldMAX HH (High Hard) is the premier copper mold alloy. Hardness and strength comparable with standard tool steels, but thermal conductivity is four to six times higher. Used for injection mold cores and cavities and blow mold pinch-offs.

A metal alloy primarily composed of copper and zinc. Known for its bright golden-yellow color, corrosion resistance, and malleability. Widely used in decorative hardware, musical instruments, plumbing fixtures, and industrial components due to its attractive appearance, durability, and ease of machining.

Also known as red brass. Significantly stronger than yellow brass with excellent corrosion resistance. Typically used in jewelry, pens, decorative parts, light fixtures, steam iron parts, sprinklers, and weather stripping.
The most ductile of the yellow brasses with good finishing capabilities and corrosion resistance. Typically used in architecture, electrical parts, fasteners, and ammunition casings.
Good strength, formability, and corrosion resistance. Typically used as fasteners, heat exchangers, pump cylinders, and tubing for industrial projects.
Good strength, formability, and corrosion resistance. Typically used as fasteners, heat exchangers, pump cylinders, and tubing for industrial projects.
Known for its attractive golden color, spectacular corrosion resistance, and strength. Similar to bronze but lower cost and stronger than other brasses. The only brass specifically designed for marine applications.
Free machining brass with superior thermal and electrical conductivity. Good strength and corrosion resistance. Typically used in hardware, electrical components, fasteners, screws, and other industrial applications.
Good strength, formability, and corrosion resistance. Easier to machine and work than other forms of brass. Predominantly used in tubing applications.
Low leaded brass known for good formability, ductility, and high corrosion resistance. Used in applications where lead must be avoided, such as food preparation or water pipes.
Also known as "engravers brass." Easy to machine, resists corrosion, and polishes to an exceptional sheen. Used in brass placards, signs, nuts, gears, door hardware, and furniture drawer handles.
Also known as "engravers brass." Easy to machine, resists corrosion, and polishes to an exceptional sheen. Used in brass placards, signs, nuts, gears, door hardware, and furniture drawer handles.
Also known as "free machining brass." The presence of lead creates a highly machinable material that can easily be cut and shaped. Not ideal for forming operations.
Both alloys exhibit an attractive gold color. 385 is more machinable and corrosion resistant; 280 is stronger and harder.
Also known as "architectural bronze" (though it's actually brass). Polishes to a great finish, resists corrosion in non-marine environments, and machines comparably well to 360. Typically used in architectural applications and ornamental hardware.
Also known as "naval brass." Extremely high corrosion resistance, good strength, fair machinability, and excellent resistance to dezincification. Typically used in marine hardware, wear plates, bushings, fasteners, and condenser tubes.
Naval brass with extremely high corrosion resistance, good strength, and excellent resistance to dezincification. Better machinability than 464 due to higher lead content. Used in marine hardware, wear plates, bushings, fasteners, and condenser tubes.
Lead-free and more corrosion resistant replacement for brass 360. Specifically designed to machine at nearly the same rate as free machining brass, but with lead, arsenic, and bismuth removed for environmental safety.
Brass round tubing stocked in three alloy grades: 260, 272, and 330 — interchangeable for most applications. All offer excellent corrosion resistance and the warm, golden appearance of brass. Contact our team for specific alloy availability by size.

A metal alloy primarily composed of copper and tin. Known for its attractive golden-brown color, corrosion resistance, and low metal-on-metal friction properties. Widely used for sculptures, bearings, bushings, architectural fixtures, and marine hardware.

Also known as "commercial bronze" (technically a brass). Rich color, excellent formability, corrosion resistance, and high strength. Typically used in medals, medallions, jewelry, hardware, lighting fixtures, kickplates, push plates, weather stripping, and marine hardware.
Excellent strength, formability, and durability, formulated for wrought products. Typically used as springs, bellows, and electrical hardware.
Also known as Tin Bronze. Higher amounts of tin and phosphorous increase strength, corrosion resistance, and wear resistance. High machinability. Typically used for electrical connectors, bushings, gears, pinions, screw products, thrust washers, valves, and shafts.
Known for exceptional strength and toughness. Typically used in aerospace and marine applications such as valve stems, high strength bushings, valve seats and guides, gears, cams, nuts, shafts, and ship propellers.
The alloy of choice when requiring strength, excellent corrosion resistance, and ease of machinability. Typically used to make bolts, gears, and valves.
Strong with good corrosion resistance, resilience, and formability. Resists corrosion from most acids, alkalis, salts, and other chemicals. Typically used for marine hardware, fasteners, bushings, and shafts.
Excellent corrosion resistance, high strength, and excels in high speed and heavy load environments. Typically used in fasteners, industrial projects, and marine hardware.
Designed for bearings and high temperature environments. Contains oil inside the metal — as it heats, oil seeps out to lubricate; as it cools, oil is reabsorbed. Typically used in high speed machinery and hardware.
Similar to SAE 841 but the addition of iron gives 863 much higher strength. Self-lubricating oil bronze for high temperature bearing environments. Typically used in high speed machinery and hardware.
High strength and durability, excels at heavy load applications at low speeds with high lubrication. Typically used in bushings, bearings, gears, gibs, screws, nuts, pins, valve stems, hydraulic cylinder parts, and heavy industrial equipment.
Lead-free alternative to 932 Bronze. Good machinability, plating/polishing, castability at lower temperatures, and superior microstructural characteristics. Typically used for faucets, pipe fittings, plumbing goods, pump components, and small gears.
Standard material for light duty applications. Hard, strong, resistant to wear, and easily machined. Sold with an as-cast oversized surface. Typically used in bushings, thrust washers, bearings, pumps, and valve components.
Sold with an as-cast oversized surface. High aluminum and iron content delivers strong properties and corrosion resistance. Typically used for bearings, valves, pumps, gears, and fastening hardware.

An alloy of iron and carbon (0.12%–2.1% carbon by weight). One of the most widely used metallic materials due to high strength, durability, relatively low cost, and suitability for various manufacturing processes. Used extensively in construction, machinery, automotive components, and tools.

Good combination of strength, some ductility, and ease of machining. Chemically similar to A36 hot rolled steel, but cold rolling creates a better surface finish and improved properties.
Commonly used lower carbon steel. Typically used in machinery parts, die forging, hot upsetting, gears, crankshafts, shafts, axles, bolts, studs, pinions, casters, and support plates.
Spring Steel with a hardness range of 44–47 HRC. Softer than 1095, making it faster to sharpen and easier to form.
Spring Steel with a hardness range of 48–51 HRC. Hardness allows for more spring-back and better edge retention in applications where stress is continuous.
Also called "stressproof." Excellent strength and hardness, specifically treated to relieve manufacturing stresses so the bar is less prone to warping after machining or heat treatment. Used in nuts, bolts, arbors, gears, pinions, piston rods, sleeves, shafts, and screws.
Lead and manganese additions increase hardenability and machinability. Typically used when case hardening is needed, such as in medium duty shafts, studs, pins, and universal joints.
Lead added to increase machinability; can also be bent, riveted, or crimped. Typically used in high-speed screw machine products.
Low alloy carbon steel with better tensile strength than non-alloyed carbon steels. Similar to 1080 with small additions of chromium and vanadium. Tight specifications make it a good steel for knives.
The most common low-carbon structural steel in the world. Strong, heavy, ductile, and cost-effective. Exceptionally easy to weld with good machinability. Typically used for general structural purposes such as bridges and buildings.
Common low-carbon steel typically used in home appliances, furniture, and automotive applications.
Standard cold-formed carbon steel structural tubing — the most common type of steel tubing in North America. Good strength, weldability, and low cost. Used exclusively in structural tubing.
Rectangle and square tube stocked in either ASTM A500 or ASTM A513 steel, both suitable for structural applications.
Low-carbon alloy with a uniform grain structure giving it a strong, seamless, consistent structure. Almost exclusively used in DOM tubing for automotive, construction, and mechanical industries.
Popular quenched and tempered steel offering high strength, machinability, and weldability. Typically used in applications where wear resistance and ability to withstand high impact are important.
A galvanized alternative to A500 pipe.
Also called COR-TEN/Corten. Quickly develops an orange-brown rust-colored sheen that protects the material underneath when exposed to weather. Frequently used in industrial applications, freight cars, and decorative applications.
One of the most economical steel grades available.
Also called COR-TEN/Corten. Develops a protective rust-colored sheen when exposed to weather. Frequently used in industrial applications, freight cars, and decorative applications.
Excellent corrosion resistance due to galvanized coating and zinc content. Typically used in outdoor signage, garbage cans, heating and cooling systems, and electrical protection.
A galvanized alternative that readily accepts paint. Due to the brittle nature of the galvanneal coating, painting before forming is not recommended as it can degrade corrosion performance.
Also called COR-TEN/Corten. Develops a protective rust-colored sheen when exposed to weather. Used in industrial applications, freight cars, and decorative applications.
Standard spec for carbon steel bolts and studs. Made from A36 round bar — a low-carbon, mild steel with excellent ductility and weldability. Used for anchor bolts, studs, and threaded rods in structural and non-critical environments.
High-carbon steel alloy famous for its high tensile strength and high elastic limit. Derived its name from one of its most popular applications — piano strings.
Protects steel from oxidizing/rusting. Galvalume outperforms galvanized material over time, especially when exposed to elements that speed up the oxidation process.

Dura-Bar® Cast Iron is a specialized cast iron alloy of iron, carbon, and silicon. Offers excellent wear resistance, toughness, and the ability to withstand heavy impact and abrasion. Well-suited for components used in harsh mining, mineral processing, and other demanding industrial environments.

Dura-Bar offering high wear resistance, strength, durability, impact resistance, fatigue resistance, ductility, with excellent consistency and finish.
Dura-Bar offering high wear resistance, strength, durability, impact resistance, fatigue resistance, ductility, with excellent consistency and finish.
Dura-Bar offering high wear resistance, strength, durability, ductility, with excellent consistency and finish.

A reddish-brown, malleable, and ductile element renowned for excellent thermal and electrical conductivity, corrosion resistance, and ease of fabrication. Used in electrical wiring, plumbing, electronics, industrial machinery, and the production of alloys like brass and bronze.

Commercially pure high conductivity grade with no oxygen, giving excellent electrical and thermal conductivity. Typically used in conductors and particle accelerators.
Most commonly known for sublime electrical conductivity and formability. Typically used in plumbing hardware, wiring, electrical components, and telecommunication materials.
Deoxidized with phosphorus; excels when heavy forming processes are required. Typically used in pipes and tubing.
Similar mechanical properties to unalloyed copper with higher machinability. Used in high-speed automatic screw machines and electrical applications like circuit breaker terminals, hot forged studs, and transformers.
Excellent machinability and high conductivity. Typically used for electrical, industrial, and plumbing applications.
Excellent conductivity, weldability, and workability. Typically used in electrical applications.
Commonly referred to as roofing copper. Certified to the ASTM B370 specification and 99% pure copper. Used in roofing, flashing, and architectural applications.

A silvery-white, hard yet malleable and ductile metal. Highly valued for its corrosion resistance, strength at high temperatures, and ability to produce alloys with desirable heat resistance and strength. Used in aerospace, automotive, chemical processing, and electronics.

Highest corrosion resistance with high formability, weldability, and conductivity. Typically used in chemical drums and processing equipment.
Highly corrosion resistant with high strength properties, good weldability and formability. Typically used in marine equipment, chemical processing, and marine components.
Good corrosion resistance at elevated temperatures. Typically used in heat treating applications, furnace fixtures, and metal manufacturing plants.
High strength, outstanding corrosion resistance, heat resistance, and fatigue strength at elevated temperatures. Typically used in aerospace ducting and exhaust, bellows, turbine shrouds, seawater components, and chemical process equipment.
High strength and fatigue resistance designed for use at temperatures up to 1200°F. Typically used in gas turbines, liquid fuel rocket motors, springs, fasteners, and cryogenic tanks.
Known for its ability to withstand corrosion in the harshest environments. Copper and molybdenum levels allow efficient resistance to both reducing agents and acids.
High strength properties, high corrosion resistance, and strength in low temperatures. Excellent fabrication properties make it typically used in the automotive and oil industry, often as fasteners and turbines.
A nickel-chromium-molybdenum-tungsten alloy with exceptional corrosion resistance in a broad range of aggressively corrosive environments.
The most versatile corrosion resistant alloy available. Typically used in waste treatment piping, chemical piping, and pollution control.
Same corrosion resistance as Nickel 400 but significantly more strength. Typically used in marine, chemical, oil, and gas industries.
Round rod version of Nickel 400, sharing all the same corrosion resistant benefits. R405 is produced exclusively in round rod form.

Despite its name, nickel silver contains no silver. It is a group of copper-nickel-zinc alloys with a silvery appearance. Known for electrical resistance and corrosion resistance, making it popular for tableware, marine fittings, plumbing fixtures, and musical instruments.

Also known as German Silver. Good strength, silvery appearance, and excellent resistance to corrosion and tarnish. Typically used for decorative and ornamental applications. Almost exclusively produced in sheet form.
Also known as German Silver. Good strength, silvery appearance, and excellent resistance to corrosion and tarnish. Typically used for decorative and ornamental applications. Primarily produced in round bar form.

A wide range of synthetic or semi-synthetic organic polymers that can be molded into solid objects. Valued for low cost, ease of manufacture, versatility, and resistance to water and corrosion. Used across countless applications in packaging, construction, transportation, and electronics.

Biocompatible, recyclable, impact resistant, weldable, dimensionally stable, abrasion resistant, and performs well in high and low temperature environments. Low cost of production makes it a common plastic across many industries.
High strength and rigidity, low moisture absorption, and easy to machine. Typically used in bearings, bushings, electrical components, structural keels, gears, rollers, food equipment, and medical equipment.
Extremely dimensionally stable, highly weather resistant, impact resistant, lightweight, durable, and heat resistant. Can be thermoformed or molded easily, popular across a wide range of industries.
Fluran F-5500-A is highly flexible, resilient, highly resistant to corrosion, with continuous service up to 400°F. Opaque black color helps protect light-sensitive fluids.
Electrical insulation, track resistance, flame resistance, chemical resistance, high impact strength, and high mechanical strength. An electrical grade sheet made from polyester resin and fiberglass reinforcement.
High impact strength, excellent tensile strength, abrasion resistance, and resistance to stress cracking. Typically used for cams, washers, shims, machined parts, rack liners, protectors, tank lining, bin lining, chutes, and cutting boards.
Fire retardant, impact resistant, and highly corrosion resistant. Typically used for aircraft interiors, equipment housing, firearm holsters, kiosk housing, mass transit vehicle interiors, and medical equipment.
Exceptional longevity, superior weathering, UV resistance, and abrasion resistance. Typically used for most projects outside of medical or food industries.
Good tensile strength, high durability, good fatigue resistance, and good thermal and chemical resistances. Typically used for automotive parts, electrical components, fuse breakers, low voltage switch gears, relays, and high durability sporting equipment parts.
Excellent chemical resistance, very low moisture absorption, high wear resistance, unaffected by continuous exposure to hot water or steam. Used in valve seats, pump gears, seals, bushings, bearings, electrical connectors, water carriers, screws, and laboratory equipment.
Easily cut and formed, provides excellent clarity, odorless, and high impact strength. Typically used for electronics packaging, food packaging, trays, signs, covers, merchandise displays, and safety shields.
Extremely high impact strength, outstanding stability, lightweight, and a wide temperature range of -40 to 280°F. Typically used in bulletproof windows, CDs, prototyping parts, and numerous projects where it replaces glass.
Abrasion resistant, dimensionally stable, easily formable, lightweight, highly impact resistant, and extremely easy to machine. Typically used in acid tank linings, battery cases, cutting boards, fume hoods, machined parts, metal barrel plating, and plating modules.
Outstanding chemical resistance, low friction, and high continuous service temperature. Used for bearings, chemical vessel linings, pipe and valve linings, gaskets, diaphragms, piston rings, high temperature electrical insulation, and non-stick coatings.
Great corrosion resistance, excellent chemical resistance, and excellent thermoforming and machining capabilities. Typically used for dust collection systems, corrosion control equipment, flues, vents, lab equipment, acid fume hoods and ducts, waterproof covers, and storage tanks.
High strength, low friction, superior electrical insulation, high wear resistance, chemical resistance, and high resistance to radiation. Used in non-lubricated bearings, seals, valves, compressor parts, piston parts, bearing cages, and high temperature seals.
Tygothane C-210-A exhibits excellent stability when exposed to oils, greases, and fuels, along with high tear and abrasion resistance. Typically used for fuel and lubricant lines, pneumatic lines, abrasive product transfer, and cable jacketing.
Durability, abrasion, impact, and chemical resistance at a cost-effective rate. Typically used in chain guides, wear rails, chute liners, truck liners, hopper liners, and other high wear applications.
High strength with high heat resistance and resistant to cracking. Typically used in connectors, automotive components, valves, electrical fittings, structural probes, manifolds, insulators, and clamps.

An alloy steel containing a minimum of 10.5% chromium, which forms a passive layer that makes it highly resistant to corrosion, staining, and moisture. Ideal for kitchen appliances, medical equipment, automotive trim, and industrial machinery where hygiene, durability, and low maintenance are required.

Excellent strength, high hardness, superior toughness, and good corrosion resistance. Typically used in aircraft frames, other aerospace applications, petrochemical and nuclear plants.
High strength but lower corrosion resistance at higher temperatures. Designed to be tougher than 17-4 alloy. Typically used in aerospace, petrochemical applications, pulp and paper machines, and food production.
High tensile strength, hardness, and excellent corrosion resistance up to high temperatures. Typically used in gate valves, chemical processing equipment, pump shafts, gears, ball bearings, bushings, and fasteners.
The most formable of all precipitation-hardening stainless steels. Provides high strength and hardness. Low distortion in heat treatment makes it a common choice for intricate parts. Used in aerospace parts, springs, washers, heat exchangers, and high temperature applications.
Excellent strength and high corrosion resistance in marine environments. Typically used in seawater pump shafts, heat exchangers, pressure vessels, and other marine hardware.
Exceptional wear and galling resistance. Typically used in fasteners, pins and bushings, wear rails, roller bearings, and pump components.
High strength, high ductility, and excellent corrosion resistance. Typically used for aircraft structures, trailer bodies, architectural components, auto trim, wheel parts, utensils and tableware, and conveyor components.
Extremely tough with outstanding corrosion resistance and ease of machining. Typically used in the food and beverage industry, pressure vessels, and cryogenic applications.
The main value of this alloy is its ease of machining, grinding, and polishing. Typically used in aircraft applications, machine parts, pump and valve parts, architectural applications, nuts, and bolts.
The most commonly used stainless steel in the world. Great mix of strength and corrosion resistance without being overly specialized. Used in aerospace, food and beverage, pressure containers, architectural designs, cryogenic applications, and chemical processing equipment.
Chromium nickel austenitic alloy designed for use in high temperature corrosion resistance applications.
Maintains decent strength at high temperatures and exceptional corrosion resistance up to 2000°F. Typically used in coal combustors, radiator tubes, steam boilers, thermowells, burners, combustion chambers, food processing equipment, and cryogenic hardware.
Superior corrosion resistance compared to 304, with added molybdenum for improved resistance to chlorides and marine environments. Widely used in marine hardware, food processing equipment, pharmaceutical equipment, and chemical processing applications.

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