Copper Foam Disk Open Cell | |
Product No | NRE-51021 |
CAS | 7440-50-8 |
PPI | 95 PPI (can be customized) |
Density | 8.96 g/cm³ |
Purity | 99.9% |
Diameter | 50mm (can be customized) |
Porosity | ≥95% |
Thickness | 4.5 mm (can be customized) |
Melting Point | 1080°C |
Boiling Point | 2567 °C |
Copper Foam Disk Open Cell
Copper foam disks open cell structure are used in a variety of applications due to their unique properties such as high surface area, low density, and excellent thermal and electrical conductivity.
Heat Exchangers
Thermal Management: Copper foam disks are used in heat exchangers to improve heat transfer efficiency. Their high thermal conductivity and large surface area allow for effective dissipation and absorption of heat, making them ideal for cooling systems in electronics, automotive, and industrial applications.
Catalysis
Catalyst Support: In catalytic processes, copper foam disks are used as a support material for catalysts. The open-cell structure provides a large surface area for the catalytic reactions to occur, enhancing the efficiency of chemical reactions in processes such as hydrogen production and pollution control.
Electronics Cooling
Thermal Interface Materials: Copper foam disks are used in electronics for thermal interface materials to manage heat in high-performance electronic devices. Their excellent thermal conductivity helps in efficiently transferring heat away from sensitive components, preventing overheating and improving performance and reliability.
Filtration and Separation
Fluid Filtration: The open-cell structure of copper foam disks allows them to be used as filters in various fluid filtration applications. They can capture particles from liquids or gases, making them useful in applications such as air and water purification, as well as in chemical processing.
Energy Storage and Conversion
Battery Electrodes: Copper foam disks are used in battery electrodes to enhance the performance of energy storage devices. Their high surface area and conductivity improve the efficiency of electrochemical reactions, contributing to better battery performance and longevity.
Supercapacitors: In supercapacitors, copper foam disks serve as a conductive substrate, providing a high surface area for charge storage and improving the overall energy density and performance of the supercapacitor.
Sound Absorption
Acoustic Dampening: The porous nature of copper foam disks makes them suitable for sound absorption and acoustic dampening applications. They can be used in noise reduction systems, such as in automotive interiors or industrial environments, to control and reduce unwanted noise.