Carbon Felt
| Carbon Felt | |
| Product No | NRE-53004 |
| CAS No. | NA |
| Temperature | Upto 1800 °C |
| Layers | 5 layers paper+4 layer felts |
| Circle Bucket | Outer diameter: 1.25m |
| Square Bucket | 1.2m*1.2m*1.5m |
| Thickness | 20mm-120mm |
| Density | 0.30 g/cm3 |
| Carbon content | 95.5% |
| Width | 0-1.35meter |
| Length | 0-24 meters |
Carbon Felt
Applications:
Thermal Insulation:
High-Temperature Insulation: Carbon felt is used as a thermal insulator in high-temperature applications. It is employed in furnaces, kilns, and other industrial equipment to insulate and protect components from heat.
Aerospace
Thermal Protection Systems: C is used In aerospace applications, thermal protection systems for spacecraft and rockets. Its high temperature resistance and low thermal conductivity make it ideal for protecting sensitive components from extreme temperatures.
Battery Technology:
Electrode Material: Carbon felt is used in some types of batteries, such as flow batteries, as an electrode material. Its high electrical conductivity and surface area contribute to improved performance in energy storage applications.
Fuel Cells:
Electrode Support: C In fuel cells, Carbon felt is used as a support material for electrodes. Its conductivity and structural properties help in the efficient operation of fuel cells by providing a stable platform for the electrochemical reactions.
Chemical Processing:
Catalyst Supports: Carbon felt is used as a support for catalysts in chemical reactors. Its high surface area and resistance to corrosive chemicals make it useful in various chemical processing applications.
Electronics:
Conductive Layers: Carbon felt In electronics, as a conductive layer or as part of shielding materials. Its electrical conductivity is utilized in applications requiring grounding or electromagnetic shielding.
Medical Devices:
Orthopedic and Prosthetic Devices: some medical devices, including orthopedic and prosthetic components, due to its lightweight and durable nature.
Manufacturing:
Tooling and Molds: in manufacturing processes, including as part of tooling and molds, due to its ability to withstand high temperatures and its machinability.
Energy Storage:
Supercapacitors: Carbon felt supercapacitors as an electrode material. Its high surface area and conductivity contribute to the energy storage and performance of these devices.
