High Purity |
Pure copper plates have a minimum copper content of 99.90%, ensuring a high level of purity without significant alloying elements. |
Excellent Electrical Conductivity |
Renowned for its exceptional electrical conductivity, pure copper is widely used in applications where efficient electrical flow is critical, such as in electrical conductors and components. |
Outstanding Thermal Conductivity |
Pure copper plates exhibit excellent thermal conductivity, making them ideal for applications involving heat transfer, such as in heat exchangers and cooling systems. |
Malleability and Ductility |
Pure copper is highly malleable and ductile, allowing it to be easily shaped, formed, and worked into various configurations without losing its structural integrity. |
Distinctive Appearance |
Pure copper plates have a characteristic reddish-brown color, providing an aesthetically pleasing and distinctive appearance. This makes them suitable for decorative and architectural applications. |
Corrosion Resistance |
While not as corrosion-resistant as certain copper alloys, pure copper naturally develops a protective oxide layer over time, providing a level of resistance to corrosion. |
Versatility |
Pure copper plates are versatile and find applications in various industries, including electrical, architectural, artistic, and industrial sectors. |
Craftsmanship and Artistic Potential |
Due to its malleability and suitability for engraving and etching, pure copper plates are often used in artistic endeavors, including printmaking and fine craftsmanship. |
Recyclability |
Copper is highly recyclable, making pure copper plates an environmentally friendly choice. Recycled copper retains its properties, reducing the need for new mining and processing. |
DIY-Friendly |
DIY enthusiasts appreciate the workability of pure copper plates for various projects, leveraging their malleability and conductivity. |
Suitable for Forming and Machining |
Pure copper plates can be easily formed, machined, and fabricated into intricate shapes, making them adaptable to diverse manufacturing processes. |
High Melting Point |
Copper has a relatively high melting point (1,984 degrees Celsius or 3,623 degrees Fahrenheit), contributing to its durability and stability at elevated temperatures. |
Low Magnetic Susceptibility |
Copper is non-magnetic, which can be advantageous in applications where magnetic interference needs to be minimized. |
The mechanical properties of pure copper plates, often designated as C11000 or electrolytic tough pitch (ETP) copper, are influenced by factors such as temperature, manufacturing processes, and the specific requirements of the application. Here are some typical mechanical properties of pure copper plates:
It's essential to note that these mechanical properties can vary based on factors such as the specific alloying elements, manufacturing processes, and the state of the copper (annealed, cold-worked, etc.). Additionally, while copper is known for its excellent electrical conductivity and thermal conductivity, its mechanical properties make it suitable for various applications, from electrical components to architectural and industrial uses.
Common applications of pure copper plates
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