The dispersion and buffering effect of foam copper on fluids

Product Name: Foam Copper
Thickness: 0.1mm-55mm
Maximum Dimensions: 500*1000*H

Product Details
Pore Characteristics and Bulk Density
Pore Size: 0.1mm-10mm (10-130 ppi)
Porosity: 80%-98%
Through-Pore Rate: ≥98%
Bulk Density: 0.1-0.8 g/cm³

Product Features:
(1) Foam copper exhibits excellent thermal conductivity, making it widely applicable for heat dissipation in motors/electrical appliances and electronic components.
(2) Due to its superior electrical conductivity, foam copper is gaining industry attention as an electrode material for nickel-zinc batteries and double-layer capacitors.
(3) Its structural properties and near-harmlessness to humans also position foam copper as an outstanding medical filtration material and water purification filter.

Application Fields:
(1) Electrode Materials: Its superior conductivity enablesfoam copper to be widely used as electrode skeleton material in new battery types like nickel-zinc batteries and double-layer capacitors. Currently, foam copper has been trialed by multiple nickel-zinc battery manufacturers and adopted for mass production. Additionally, foam copper shows promise for widespread application as a current collector in double-layer capacitor electrodes. Furthermore, foam copper holds significant potential as an electrode material for electrolytic recovery of copper-containing wastewater.
(2) Catalyst: In numerous organic chemical reactions, researchers are exploring the direct use of high-surface-area foam copper to replace perforated copper plates as reaction catalysts. Foam copper has also achieved successful applications as a photocatalytic air purification carrier. 
(3) Thermal Conductive Material: Foam copper's excellent thermal conductivity makes it a superior flame-retardant material, finding application in many advanced firefighting equipment overseas, particularly demonstrating outstanding effectiveness as flame isolation equipment. Furthermore, its excellent thermal conductivity and apparent transparency are utilized to create heat dissipation materials for motors and electrical appliances. 
(4) Sound Absorption and Shielding Materials: Sound waves undergo diffuse reflection on the foam copper surface, achieving noise reduction through principles like expansion damping and microporous absorption. Copper's shielding properties rival those of silver, making it an excellent electromagnetic shielding material. 
(5) Filtration Materials: Foam copper products, with their superior structural characteristics and minimal harm to the human body, have been successfully applied as medical filtration materials. Simultaneously, foam copper shows promising potential in water purification systems.
(6) Fluid Pressure Buffering Materials: Foam copper's dispersion and buffering effects on fluids make it highly effective as a pressure-reducing protective device for various pressure gauges.