Brass Bar/Rod | Copper Bar/Rod | Bronze Bar/Rod

C64200 Silicon Aluminum Bronze is an engineering alloy at least as resistant to corrosion as copper itself, but much stronger. CDA 642 bronze is manufactured mostly in the form of round, hexagonal, and octagonal rods for hot forming and free machining.

AMS 4616 is a special high strength silicon bronze; the additional iron content provides added strength in conjunction with the self lubricity of the silicon for excellent bearing and load properties. AMS 4616 / C65620 is easily machined into ball bearing cage assemblies.

C65620 is a special high strength silicon bronze; the addional iron content provides added strength in conjunction with the self lubricity of the silicon for excellent bearing and load properties. C65620 / AMS 4616 is easily machined into ball bearing cage assemblies!

C18200 Chromium Copper is a high-conductivity copper alloy with chromium addition, known for its superior electrical and thermal conductivity, excellent resistance to softening, and good strength, making it widely used in electrical applications such as switches, relays, and high-performance conductors.

C18150 Copper Chromium Zirconium is a high-strength, precipitation-hardenable copper alloy with chromium and zirconium additions, known for its excellent electrical conductivity, high thermal stability, and good resistance to softening at elevated temperatures, commonly used in electrical connectors and components that require strength and thermal resistance.

C18000 Copper Chromium Nickel Silicon is a high-strength, corrosion-resistant copper alloy with additions of chromium, nickel, and silicon, offering superior electrical and thermal conductivity, enhanced resistance to oxidation and corrosion, and excellent formability, making it ideal for electrical contacts, connectors, and high-temperature applications.

C19160 Leaded Nickel Copper is a high-strength, high-conductivity copper alloy with added nickel and lead, offering excellent resistance to corrosion, particularly in seawater, and good machinability, making it suitable for applications such as marine engineering components, heat exchangers, and electrical connectors.

C19140 Low Leaded Nickel Copper is a corrosion-resistant copper-nickel alloy with a reduced lead content, known for its good thermal and electrical conductivity, enhanced resistance to dezincification, and improved formability, used in condenser tubes, heat exchangers, and components requiring resistance to corrosive environments.

C17300 Leaded Beryllium Copper is a high-strength, age-hardenable copper alloy that incorporates beryllium and lead, offering superior electrical conductivity, excellent mechanical properties, and good bearing performance, making it a preferred material for electrical contacts, connectors, and precision springs in various industries.

C16200 Cadmium Copper alloy offers a unique combination of high tensile strength and high electrical conductivity for an industry where these properties are generally considered incompatible. The nominal composition of 99.0% copper and 1.0% cadmium can lead to these unique properties.

C10200 Oxygen Free Copper (OFC) is a high-purity copper with very low oxygen content, offering superior electrical and thermal conductivity, excellent ductility, and resistance to corrosion, making it an ideal material for applications that require high performance in electrical conductivity and high-quality electrical and thermal components.

C10100 Oxygen-Free Electronic Copper, also known as OFE, is a 99.99% pure copper with 0.0005% oxygen content. C101 achieves a minimum 101% IACS conductivity rating. This copper is finished to a final form in a carefully regulated, oxygen-free environment.