Composition of Common Brass Alloys

Rolls of brass sheet metal sitting in a warehouse setting ready for deliver to the customer.

Colin Molyneux / Getty Images

Brass is a metal alloy that is always made with a combination of copper and zinc. By varying the amount of copper and zinc, brass can be made harder or softer. Other metals—such as aluminum, lead, and arsenic—may be used as alloying agents to improve machinability and corrosion resistance.

How Different Alloys Change the Properties of Brass

By adding different metals to brass, it is possible to change its properties. It can become yellower, harder, softer, stronger, or more corrosion-resistant, depending upon its chemical composition. For example:

  • Brass is usually a warm golden color. The addition of 1 percent manganese, however, will turn brass to a warm chocolate-brown color, while nickel will make it silver.
  • Lead often is added to brass to make it softer and thus more malleable.
  • Arsenic may be added to make brass more stable in certain environments.
  • Tin can help to make brass stronger and harder.

Types of Brass

There are many different types of brass, each with a slightly different chemical composition. Each type of brass has its own name, qualities, and uses. For example:

  • Red brass, not surprisingly, is warmer in color than other brasses. It also is a particularly strong type of brass.
  • Cartridge brass (also referred to as 260 brass and yellow brass) is best known as an ideal metal for shell casings. It is most often sold in sheet form and easily formed and worked into desired shapes.
  • 330 brass is particularly useful in tubing and poles because it is both workable and machinable. Fire poles are a common use for 330 brass.
  • Free machining brass, also called 360 brass, is relatively high in lead, making it easy to cut and shape. It often is used to make items such as rods and bars.
  • Naval brass, also called 464 brass, is highly resistant to corrosion and thus ideal for use in seawater.

Corrosion Resistance of Brass

Contact with an amine, a compound derived from ammonia, is a common cause of brass corrosion. The alloy also is susceptible to corrosion through the process of dezincification. The more zinc brass contains, the more it can be impacted by zinc leaching out of the alloy, causing it to become weaker and more porous. The National Sanitation Foundation International (NSF) standards require brass fittings containing at least 15% zinc to be resistant to dezincification. Adding elements such as tin, arsenic, phosphorus, and antimony can help achieve this effect, as can reducing the amount of zinc to less than 15%. Brass with less than 15% zinc is known as red brass.

Naval brass, which is used in seawater, actually has 40% zinc, but it also contains 1% tin to reduce dezincification and make it more resistant to corrosion.

Uses of Brass

Brass is a popular metal for applications that are both practical and decorative. Items like door handles, lamps, and ceiling fixtures like lights and fans are examples of practical uses that also serve a decorative purpose. Aside from being attractive, brass also is resistant to bacteria, making it that much more useful for fixtures like door handles that multiple people touch frequently. Some uses, such as figures atop bedposts, are strictly decorative.

Many musical instruments also are made of brass because it is a very workable metal and can be formed into the sorts of precise shapes necessary for horns, trumpets, trombones, and tubas. These instruments, collectively, are commonly known as the brass section of an orchestra.

Because of its low friction and resistance to corrosion, brass also is popular hardware for plumbing fixtures and other building supplies. Pipe fittings, nuts, and bolts are often made of brass to take advantage of its characteristics. Shell casings for ammunition also are a popular use for brass, largely because of its low friction.

Brass also is highly ductile, meaning it can be formed into a lot of shapes, making it a popular alloy for use in precision instruments, such as gauges and clocks.

Compositions of Common Brass Alloys

The chart below summarizes the composition of a number of commonly used brass alloys:


AS No.

Common Name




Copper %

Zinc %

Lead %


C21000 210 95/5 Gilding metal - CuZn5 C2100 94–96 ~5 -
C22000 220 90/10 Gilding metal CZ101 CuZn10 C2200 89–91 ~10 -
C23000 230 85/15 Gilding metal Cz103 CuZn20 C2300 84–86 ~15 -
C24000 240 80/20 Gilding metal Cz103 CuZn20 C2400 78.5–81.5 ~20 -
C26130 259 70/30 Arsenical brass Cz126 CuZn30As C4430 69–71 ~30 Arsenic
C26000 260 70/30 Brass Cz106 CuZn30 C2600 68.5–71.5 ~30 -
C26800 268 Yellow brass (65/35) Cz107 CuZn33 C2680 64–68.5 ~33 -
C27000 270 65/35 Wire brass Cz107 CuZn35 - 63–68.5 ~35 -
C27200 272 63/37 Common brass Cz108 CuZn37 C2720 62–65 ~37 -
C35600 356 Engraving brass,
2% lead
- CuZn39Pb2 C3560 59–64.5 ~39 2.0–3.0 -
C37000 370 Engraving brass,
1% lead
- CuZn39Pb1 C3710 59–62 ~39 0.9–1.4 -
C38000 380 Section brass Cz121 CuZn43Pb3 - 55–60 ~43 1.5–3.0 Aluminum 0.1-0.6
C38500 385 Free cutting brass Cz121 CuZn39Pb3 - 56–60 ~39 2.5–4.5 -


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Bell, Terence. "Composition of Common Brass Alloys." ThoughtCo, Oct. 29, 2020, Bell, Terence. (2020, October 29). Composition of Common Brass Alloys. Retrieved from Bell, Terence. "Composition of Common Brass Alloys." ThoughtCo. (accessed June 1, 2023).