First, electrical conductivity and thermal conductivity
Copper's excellent electrical and thermal conductivity can greatly improve energy and cost efficiency. Copper's high conductivity accounts for nearly 60% of its use, and copper's high thermal conductivity, can be used in a variety of heating, heat dissipation and heat exchange equipment. Copper provides efficient, energy efficient and safe solutions in a variety of applications such as power generation, transmission, electrical and appliance equipment, such as high-voltage transmission and distribution, industrial motors, household appliances and personal computers.
Two, corrosion resistance, impermeability and non-flammability
Copper's corrosion resistance, impermeability and non-flammability guarantee its durability, reliability and long-term cost effectiveness. Indoors, copper and copper alloys darken in color but do not rust, an important property that makes it commonly used in water pipes, gas pipes, faucets, and electrical wiring.
3. Natural bacteriostasis
Copper's natural bacteriostasis is beneficial to human health. As a result, more and more hospitals are choosing to use copper in equipment and facilities. Scientific studies have proved that copper has antibacterial advantages in hospitals, schools and other public places, home heating and air conditioning equipment, and public transportation, which can inhibit bacterial reproduction and pollution diffusion. Bacteriostatic copper is the only solid metal registered with the United States Environmental Protection Agency.
Four, ductility
Copper can be forged and stretched into intricate shapes without breaking. This allows it to be used for spires, minarets, Musical Instruments, bowls, bed frames, tubes, and a host of other functional products. In addition, the thin wires used to carry electricity in cars, computers, televisions, lighting and other electronic devices owe much to copper's flexibility and plasticity.








