Copper C114 is composed primarily of copper with small amounts of other elements, such as silicon and aluminum. This unique combination gives it superior corrosion resistance compared to pure copper alloys.
| Nominal | Minimum | Maxiumum | |
|---|---|---|---|
| Copper + Silver | - | 99.90 | - |
| Silver | - | 10oz./ton* | - |
| Oxygen | .04 | - | - |
C11400 has excellent electrical conductivity, making it ideal for use in electrical wiring applications. It also has low contact resistance, which makes it well-suited for electronic components such as switches and connectors.
Copper C114 is a solid solution-strengthened alloy primarily composed of copper and zinc with small amounts of other metals. It is characterized by excellent mechanical properties, such as high strength, good ductility, excellent wear resistance, and value retention. This makes it an ideal choice for many engineering applications where reliability and durability are particularly important. Interestingly, it also has superior corrosion resistance compared to its unalloyed counterparts, meaning it is able to outlast conventional materials in innumerable settings. Its ability to withstand extreme temperatures and elemental exposure has made Copper C114 a popular choice across industries, including electronics, automotive, and aerospace components.
The physical properties of C114 Copper make it an ideal material for many different applications. It has excellent tensile strength, making it resistant to wear and tear even in harsh environments. It also has good heat resistance up to 600°F (315°C), allowing it to be used in high-temperature applications such as automotive engines or boilers. Additionally, Copper C114 offers superior machinability due to its low melting point and ductility.
Due to its superior properties, C11400 is widely used in various industries, including automotive, aerospace, electronics, power generation, construction, and manufacturing. It is often used in the manufacture of electronic components due to its excellent electrical conductivity and low contact resistance. Additionally, it is commonly used in heat exchangers due to its high thermal conductivity and good corrosion resistance. Finally, its superior machinability makes it an ideal choice for precision parts where intricate shapes are required.
Copper is an essential trace mineral that is required for the proper function of numerous enzymes in the body.
Copper plays a role in immune function, bone strength, and cardiovascular health.
Copper is necessary for the absorption and utilization of iron.
Copper deficiency can lead to a variety of health problems, including anemia, osteoporosis, and cardiovascular disease.
Copper supplements are available in a variety of forms, including tablets, capsules, and liquids.
C11400 has excellent corrosion resistance thanks to the presence of small amounts of silicon and aluminum in its composition, which forms protective oxide layers on the surface when exposed to air or water vapor over time.
The melting point of this alloy is relatively low (1550°F/850°C), heat treatment can be easily performed without compromising mechanical strength or other physical properties.
Finally, due to its superior machinability compared with pure copper alloys, along with other benefits mentioned above, make this alloy an ideal choice for precision parts requiring intricate shapes or tight tolerances such as connectors or switches, which require precise dimensions for proper operation. In addition, the surface finish can be improved by performing certain finishing operations such as buffing, polishing, deburring, etc.







