UNS Designations for Copper and Copper alloys


Copper and copper alloys constitute one of the mayor groups of commercial metals. They are widely used because of their excellent electrical and thermal conductivities, outstanding resistance to corrosion, ease of fabrication, and good strength and fatigue resistance...

Copper and copper alloys constitute one of the mayor groups of commercial metals. They are widely used because of their excellent electrical and thermal conductivities, outstanding resistance to corrosion, ease of fabrication, and good strength and fatigue resistance. They are generally nonmagnetic. They can be readily soldered and brazed, and many coppers and copper alloys can be welded by various gas, arc, and resistance methods.

For decorative parts, standard alloys having specific colors are readily available. Copper alloys can be polished and buffed to almost any desired texture and luster. They can be plated, coated with organic substances, or chemically colored to further extend to variety of available finishes.

The most common way to catalog copper and copper alloys is to divide them into six families: coppers, dilute-copper (or high-copper) alloys, brasses, bronzes, copper-nickels, and nickel silvers. The first family, the coppers, is essentially commercially pure copper, which ordinarily is soft and ductile and contains less than about 0,7% total impurities.

The dilute-copper alloys contain small amounts of various alloying elements, such as beryllium, cadmium, chromium, or iron each having less than 8 at.% solid solubility; these elements modify one or more of the basic properties of copper.

A general classification for wrought and cast copper alloys is given in the following table.

Table of UNS Designations for Copper and Copper alloys

Generic name UNS numbers Composition
Wrought alloys
Coppers C10100-C15760 >99%Cu
High-copper alloys C16200-C19600 >96%Cu
Brasses C20500-C28580 Cu-Zn
Leaded brasses C31200-C38590 Cu-Zn-Pb
Tin brasses C40400-C49080 Cu-Zn-Sn-Pb
Phosphor bronzes C50100-C52400 Cu-Sn-P
Leaded phosphor bronzes C53200-C54800 Cu-Sn-Pb-P
Copper-phosphorus and copper-silver phosphorus alloys C55180-C55284 Cu-P-Ag
Aluminum bronzes C60600-C64400 Cu-Al-Ni-Fe-Si-Sn
Silicon bronzes C64700-C66100 Cu-Si-Sn
Other copper-zinc alloys C66400-C69900  
Copper-nickels C70000-C79900 Cu-Ni-Fe
Nickel silvers C73200-C79900 Cu-Ni-Zn
Cast alloys
Coppers C80100-C81100 >99%Cu
High-copper alloys C81300-C82800 >96%Cu
Red and leaded red brasses C83300-C85800 Cu-Zn-Sn-Pb(75-89%Cu)
Yellow and leaded yellow brasses C85200-C85800 Cu-Zn-Sn-Pb(57-74%Cu)
Manganese bronzes and leaded manganese bronzes C86100-C86800 Cu-Zn-Mn-Fe-Pb
Silicon bronzes, silicon brasses C87300-C87900 Cu-Zn-Si
Tin bronzes and leaded tin bronzes C90200-C94500 Cu-Sn-Zn-Pb
Nickel-tin bronzes C94700-C94900 Cu-Ni-Sn-Zn-Pb
Aluminum bronzes C95200-C95810 Cu-Al-Fe-Ni
Copper-nickels C96200-C96800 Cu-Ni-Fe
Nickel silvers C97300-C97800 Cu-Ni-Zn-Pb-Sn
Leaded coppers C98200-C98800 Cu-Pb
Miscellaneous alloys C99300-C99750  

Commercially pure copper is represented by UNS numbers C10100 to C13000. The various coppers within this group have different degrees of purity and therefore different characteristics.

Alloy C15100 (copper–zirconium), alloy C15500 (copper–silver–magnesium–phosphorus), alloy C19400 (copper–iron–phosphorus-zinc), and alloy C19500 (copper–iron–cobalt–tin–phosphorus) are popular for these applications because they have good conductivity, good strength, and good softening resistance.

Age hardening produces very high strenghts but is limited to those few copper alloys in which the solubility of the alloying element decreases sharply with decreasing temperature. The beryllium-coppers can be precipitation hardened to the highest strength levels attainable in copper-base alloys. There are two commercially significant alloy families employing two ranges of beryllium with additions of cobalt or nickel.

Other age-hardenable alloys include C15000, C15100 (zirconium-copper), C18200, C18400, and C18500 (chromium-coppers), C19000 and C19100 (copper-nickel-phosphorus alloys). Some age-hardening alloys have different desirable characteristics, such as high strength combined with better electrical conductivity than the beryllium-coppers.

Certain aluminum bronzes, most notably those containing more than about 9 % Al, can be hardened by quenching from above a critical temperature. The hardening process is martensitic-type process, similar to the martensitic hardening that occurs when iron-carbon alloys are quenched.

Mechanical properties of aluminum bronzes can be varied somewhat by temper annealing after quenching or by using an interrupted quench instead of a standard quench. Aluminum bronzes alloyed with nickel or zinc use reversible martensitic transformations to provide shape memory effects.

Lead, tellurium, and selenium are added to copper and copper alloys to improve machinability. These elements, along with bismuth, make hot rolling and hot forming nearly impossible and severely limit the useful range of cold working. The high-zinc brasses avoid these limitations, however, because they become fully b phase at high temperature. The b phase can dissolve lead, thus avoiding a liquid grain-boundary phase at hot forging or extrusion temperatures.

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