Jul 18, 2024 Leave a message

272 Brass (C27200) – Composition, Properties, And Uses

272 Brass Composition

Brass 272 is an alpha-beta brass that contains 72% copper and 28% zinc. It also contains trace amounts of lead (<0.2%), iron (<0.3%), arsenic (<0.01%), manganese (<0.3%), and phosphorus (<0.04%). Together these elements give it superior malleability compared to other alloys with similar compositions, such as 70/30 brass or 60/40 brass.

Elements
Cu(1) Pb Zn Fe
(1) Cu + Sum of Named Elements 99.7% min.
Min (%) 62.0      
Max (%) 65.0 0.07 Rem 0.07

UNS C27200 Brass 272 Chemical Properties

ASTM B36 Brass has excellent corrosion resistance when exposed to various types of corrosive environments such as salt water, sulfuric acid, hydrochloric acid, etc., making it an ideal material for many applications where corrosion resistance is paramount. The alloy also has good electrical conductivity, making it useful for electrical wiring applications.

Brass 272 Physical properties

C27200 Brass is an alloy of copper and zinc with excellent physical properties. It has high electrical conductivity, corrosion resistance, cold formability, and a neutral to a slightly yellowish tint. In particular, it provides superior heat conduction performance, allowing it to be used in a variety of applications across many industries. By combining the properties of copper and zinc together into one alloy, Brass 272 offers both strength and durability while remaining cost-effective. Its workability makes it possible to achieve intricate designs in products that benefit from its superior characteristics. As a result, engineers and designers often specify this alloy for challenging applications requiring superior performance coupled with affordability.

Melting Point – Liquidus°F 1680
Densitylb/cu in. at 68°F 0.305
Specific Gravity 8.44
Electrical Conductivity% IACS at 68°F 27.6
Thermal ConductivityBtu/ sq ft/ ft hr/ °F at 68°F 67
Coefficient of Thermal Expansion 68-57210 to -6 power per °F (68 – 572°F) 11.4
Specific Heat CapacityBtu/ lb /°F at 68°F 0.09
Modulus of Elasticity in Tensionksi 15000
Modulus of Rigidityksi 5600

272 Brass Mechanical Properties

The mechanical properties of brass 272 depend on the heat treatment options used during processing. The most commonly used heat treatments are stress relieving (annealing) and aging (aging). Stress relieving makes the material more ductile, while aging increases hardness and strength without compromising ductility or malleability too much. Age hardening can be done at temperatures ranging from 400°F to 600°F (204°C to 315°C). Machining is possible on Brass 272 with standard tooling, but cutting speeds should be kept low so as not to damage the surface finish or cause excessive wear on the tools themselves.

Form Temper Temper Code Tensile Strength
(ksi)
YS-0.5% Ext
(ksi)
Elongation
(%)
Rockwell F scale Section Size
(in)
* Measured at room temperature, 68°F (20°C).
Tube Hard Drawn H80 74 Typ 55 Typ 10 Typ 80 Typ 0.065
Nominal Grain Size 0.025 mm OS025 56 Typ 23 Typ 50 Typ 82 Typ 0.065

272 Brass Equivalent

ASTM B135

ASTM B36

ASTM B587

272 Brass Specifications

ASTM B446 / ASME SB446

ASTM B443 / ASME SB443

ASTM B564 / ASME SB564

ASTM F467 / F467M

ASTM F468 / F468M

AMS 5666

BS 3076

UNS C27200

UNS N06625

Welding

Brass C27200 welding is a specialized type of welding that requires specific techniques and safety precautions. It occurs when two materials are joined together by melting and forming a bond to create one unit. The process of brass 272 welding involves the use of an electrode, which is heated to extremely high temperatures and applied to the area of the connection. This heat will cause the material to become molten, allowing it to blend together with similar material nearby. The bond created during this process is longer-lasting than other types of welding and requires less maintenance. Brass 272 welding can also be more cost-effective in certain applications where strength and durability are required, making it an attractive option for those who need a reliable weld.

272 Brass ASTM B36 Uses

Brass 272 is often used in plumbing fixtures due to its high corrosion resistance and malleability, which allows for easy installation with minimal risk of leaks or cracks in the pipes themselves. It is also commonly used in electrical wiring applications because it has good electrical conductivity and does not corrode easily. Finally, it is often employed in automotive engineering projects due to its high strength-to-weight ratio, making it ideal for parts that require both strength and lightness.

Corrosion Resistance

Brass is an alloy of copper, zinc, and tin that is renowned for its corrosion resistance. This makes it an ideal material for many industrial applications, particularly in fields such as plumbing, industrial machinery, and electrical components. Even when exposed to harsh environments, Brass 272 UNS C27200 withstands wear and tear impressively well. Its superior mechanical strength and ease of machining make it a highly efficient material. Furthermore, its non-magnetic properties are attractive to many users. All these features add up to make Brass 272 an exceptional material with versatile industrial uses.

Heat Resistance

272 Brass is a metal alloy known for its great malleability and strength. Additionally, brass has excellent heat resistance properties, especially at temperatures of up to 272 degrees Celsius. This makes it ideal for use in many applications where higher temperatures are likely, such as kitchen appliances, shipbuilding materials, transportation parts, and among others. Brass' remarkable malleability allows the pieces to easily take form, while the high-temperature tolerance prevents them from becoming distorted during usage at those temperatures. Furthermore, it is relatively more affordable than other competing alloys, making it an even more attractive option for a variety of businesses.

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