UNS C92300 known as Tin Bronze is a brass alloy which is well known for its top corrosion resistant and machinability properties. It is mainly made up of copper, tin, and small amounts of other elements. Its chemical composition makes it has superior mechanical properties supportive for the different applications. This grade of material, as used in bearings, bushings, and gears, and is classified according to ASTM B505 standards, a guarantee of quality and reliability. Charts that illustrate its mechanical and physical moduli character and material specification for engineering projects. The available resources contain detailed specifications and application guidelines tables, charts and pdf used for properly handling and using UNS C92300 Tin Bronze. Manufacturers and engineers therefore employ these resources to generate solutions for conditions of performance and durability in existing products.
UNS C92300 is a tin bronzes that are noted because of their superior mechanical characteristics and decent corrosion resistance. It's chemical composition is usually composed of 10-12 percent tin, 1-2 percent zinc, and the rest is copper and trace elements. It endows the material with good wear resistance that makes it ideal for the applications that require strength or toughness. Tin Bronze finds its application in bearings, bushings, gears and valve parts in marine and industrial industry. The table of grades includes the mechanical properties including tensile strength, yield strength, elongation, and hardness needed for particular engineering needs.
Elements | Cu | Sn | Zn | Pb | Ni | Sb | Fe | P | S | Si | Al |
---|---|---|---|---|---|---|---|---|---|---|---|
Min (%) | 85.0 | 7.0 | 2.50 | - | - | - | - | - | - | - | - |
Max (%) | 89.0 | 9.0 | 5.0 | 1.0 | 1.0 | 0.25 | 0.25 | 0.050 | 0.050 | 0.0050 | 0.0050 |
Advantages:
Corrosion Resistance: C92300 Copper has high corrosion resistant properties especially in marine and high corrosion atmosphere that provides the maximum life span.
High Strength: Gains high tensile strength and hardness for its use in industries that require strong mechanical properties such as frame parts and bolts.
High Thermal Conductivity: Such copper alloys as C92300 possess high thermal conductivity for their application in heat exchangers and electrical connectors.
Machinability: C92300 is relatively easily machinable, making it possible to manufacture complex shapes and features with good tolerances and surface finishes.
Weldability: It can be welded using different techniques and this makes it possible to design intricate structures and systems.
Disadvantages:
Cost: Copper alloys such as C92300 are sometimes more costly than other material options, which in turn influences the costs of many projects.
Brittleness: Silicon bronze alloys have the tendency to be brittle in some applications, although they are not ideal for high impact applications.
Limited Availability: It may be difficult to search for stock shapes or forms of C92300 copper as it is not as popular as other copper alloys.
Potential for Contamination: Silicon can contaminate the material during casting or manufacturing and may lower the effectiveness of the material’s performance.
Coloration: C92300 bronze may experience formation of a characteristic patina layer depending on the application, which may alter its look.
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UNS C92300 Tin Bronze mainly consists of copper, silicon, tin, and other minor elements such as zinc and lead.
UNS C92300 is a grade of what is commonly known as silicon bronze and can also be referred to as CDA 923 or ASTM B505/B505M.
Yes, it is possible to download PDF documents which containing information about UNS C92300 Tin Bronze specifications, compositions, and applications on many materials and manufacturing websites.
UNS C92300 Tin Bronze is especially applied in marine hardware, architectural fittings, valve stems, pump components, and electrical connectors.