Detailed Overview of CuSN6P Copper Alloy Performance ParametersCUSN6P Copper Alloy is a special copper alloy with high strength and excellent wear resistance. It is an alloy composed of copper (Cu), tin (sn) and phosphorus (p) elements with the following performance parameters:
Chemical Composition: Copper (Cu): The main component, the content is about 60-65%.
Tin (sn): content of about 2-3%, providing excellent wear and corrosion resistance.
Phosphorus (P): The content is about 3-4%, which provides a strengthening effect and increases the hardness of copper alloys.
Other elements are low in content, including zinc (Zn), aluminum (Al) and silicon (Si), which also have a certain influence on the properties of the alloy.
Physical Properties: The density of CuSN6P copper alloy is about 89g cm, with good electrical and thermal conductivity. Its high tensile strength and yield strength, as well as its good elongation, give it excellent mechanical properties in many industrial applications.
Mechanical properties: Cusn6P copper alloy has high hardness, high wear resistance and excellent corrosion resistance, so it is suitable for manufacturing parts that are subjected to high intensity wear, such as bearings, bushings, gears, etc. In addition, it has good ductility and machinability, making it suitable for casting and machining.
Corrosion resistance: CuSN6P copper alloy has excellent corrosion resistance in most corrosive environments, and can resist the erosion of media such as acids, alkalis and salts, which makes it widely used in the fields of chemical, petroleum and marine engineering.
Summarizing Uses: CuSN6P copper alloy is suitable for a variety of industrial applications that require high strength, wear resistance, and corrosion resistance, such as bearings, bushings, gears, chemical equipment, and marine engineering. It can be manufactured and machined by methods such as casting, pressure machining, and welding. When choosing to use the alloy, its composition and processing method should be reasonably selected according to the specific application environment and requirements.