C86300 is a high-strength lead brass whose excellent strength and corrosion resistance make it an ideal choice in many applications. This copper alloy has excellent mechanical properties and corrosion resistance, making it excellent in applications that require high strength and corrosion resistance.
Centrifugal casting is to use centrifugal force to pour liquid metal into the mold, and through the action of centrifugal force, the metal is evenly distributed on the inner wall of the mold to form a certain shape of casting. This casting method has high production efficiency and low cost, and is suitable for manufacturing large and complex castings.
For C86300 high-strength lead brass, centrifugal castings are a common production method. With centrifugal casting, castings with excellent mechanical properties and corrosion resistance can be manufactured. In the centrifugal casting process, the molten metal is quickly filled with the mold under the action of centrifugal force and a uniform metal layer is formed. This casting method allows the casting to have a dense structure and uniform metal distribution, which improves the strength and corrosion resistance of the casting.
C86300 high-strength lead brass centrifugal castings have a wide range of applications in many fields. For example, they can be used to manufacture equipment for ships, petrochemicals, desalination, and more. In these applications, castings need to withstand high temperatures, pressures, and corrosive media, so it is important to select materials with excellent mechanical properties and corrosion resistance. C86300 high-strength lead brass centrifugal castings offer excellent performance to meet the needs of these applications.
C86300, high-strength lead brass centrifugal casting
Application: Specification for Centrifugal Castings of Copper-Based Alloys.
Heat treatment: 1245°C-1971°C.
ASME SB-271C86300 ASME SB-271 Chemical Composition
element min max similar
other -
zn 22 28 -
sn - 0.2 -
pb - 0.2 -
ni - 1 -
mn 2.5 5 -
fe 2 4 -
cu 60 66 -
al 5 7.5 -
asme sb-271c86300 asme sb-271 mechanical
yield tensile impact elongation reduction in cross section on fracture as-heat-treated condition brinell hardness (hbw)
rp0.2 (mpa) rm (mpa) kv/ku (j) a (%z (%
269 (≥115 (≥32 11 44 solution and aging, annealing, ausaging, q+t,etc 423
asme sb-271c86300 asme sb-271 physical
physical properties of asme sb-271c86300 asme sb-271 mainly cover modulus of elasticity, coefficient of thermal expansion, thermal conductivity, specific thermal capacity, electrical resistance value, density, poisson's ratio, etc.
temperature modulus of elasticity mean coefficient of thermal expansion 10-6/(°c) between 20(°c) and thermal conductivity specific thermal capacity specific electrical resistivity density poisson’s coefficient, ν
c) (gpa) (w/m·°c) (j/kg·°c) (mm²/m) (kg/dm³)
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