Due to its high thermal conductivity, copper foam is ideal for heat dissipation in motors and electrical components. Due to the excellent electrical conductivity, copper foam can be used as electrode material in nickel-zinc batteries and double layer capacitors. Innovative structure with interconnected open pores improves filter performance for healthcare and water treatment applications. Due to its effective sound dampening properties, copper foam is suitable for damping and shielding noise and electromagnetic interference. Versatile applications include catalyst support in chemical reactions and fluid pressure buffering for various instruments. › See more product details; Product description Copper foam is a metal material with a special pore structure. It consists of many interconnected open pores, which usually have the shape of cubes or polyhedra. This structure gives it a low density while maintaining the electrical and thermal conductivity of the metal. It is widely used for sound absorption, gas filtering, heat conduction and conductivity. Product description: (1) Electrode material. Due to its good conductivity, copper foam can be widely used as an electrode framework material for new batteries such as nickel-zinc batteries and double layer capacitors. Currently, copper foam is tested and widely used in many nickel-zinc batteries. At the same time, copper foam is expected to find wide application as an electrode liquid collector for double-layer capacitors. In addition, the use of copper foam as an electrode material for the electrolytic recovery of copper effluents is promising. (2) Catalytic converter. In many organic chemical reactions, instead of stamped copper plates, it is attempted to use copper foam with its large specific surface area directly as a catalyst for chemical reactions. Copper foam has also been successfully used as a housing for photocatalytic gas purification. (3) Heat conductive materials. Copper foam has good thermal conductivity and is therefore a flame retardant material with excellent performance, used abroad in many modern fire extinguishing equipment, especially as a flame insulation device with excellent results. In addition, the good thermal conductivity and apparent permeability of copper foam is used to produce heat dissipation materials for motors and electrical appliances. (4) Damping and shielding materials. On the surface of copper foam, sound waves are diffusely reflected and the sound dampening effect is achieved by the principles of expansion and micro-hole attenuation. The shielding performance of copper is close to that of silver and it is an excellent material for electromagnetic shielding. (5) Filter material. Copper foam products, which have good structural properties and are generally harmless to the human body, are also successfully used as filter materials in healthcare. At the same time, the application of copper foam in water treatment plants has a promising future. (6) Buffer material for liquid pressure. The dispersion and buffering effect of copper foam on liquids makes it an excellent pressure-reducing protection device for various pressure gauges.; Product description Copper foam is a metal material with a special pore structure. It consists of many interconnected open pores, which usually have the shape of cubes or polyhedra. This structure gives it a low density while maintaining the electrical and thermal conductivity of the metal. It is widely used for sound absorption, gas filtering, heat conduction and conductivity. Product description: (1) Electrode material. Due to its good conductivity, copper foam can be widely used as an electrode framework material for new batteries such as nickel-zinc batteries and double layer capacitors. Currently, copper foam is tested and widely used in many nickel-zinc batteries. At the same time, copper foam is expected to find wide application as an electrode liquid collector for double-layer capacitors. In addition, the use of copper foam as an electrode material for the electrolytic recovery of copper effluents is promising. (2) Catalytic converter. In many organic chemical reactions, instead of stamped copper plates, it is attempted to use copper foam with its large specific surface area directly as a catalyst for chemical reactions. Copper foam has also been successfully used as a housing for photocatalytic gas purification. (3) Heat conductive materials. Copper foam has good thermal conductivity and is therefore a flame retardant material with excellent performance, used abroad in many modern fire extinguishing equipment, especially as a flame insulation device with excellent results. In addition, the good thermal conductivity and apparent permeability of copper foam is used to produce heat dissipation materials for motors and electrical appliances. (4) Damping and shielding materials. On the surface of copper foam, sound waves are diffusely reflected and the sound dampening effect is achieved by the principles of expansion and micro-hole attenuation. The shielding performance of copper is close to that of silver and it is an excellent material for electromagnetic shielding. (5) Filter material. Copper foam products, which have good structural properties and are generally harmless to the human body, are also successfully used as filter materials in healthcare. At the same time, the application of copper foam in water treatment plants has a promising future. (6) Buffer material for liquid pressure. The dispersion and buffering effect of copper foam on liquids makes it an excellent pressure-reducing protection device for various pressure gauges.; Copper foam is a metal material with a special pore structure. It consists of many interconnected open pores, which usually have the shape of cubes or polyhedra. This structure gives it a low density while maintaining the electrical and thermal conductivity of the metal. It is widely used for sound absorption, gas filtering, heat conduction and conductivity. Product description: (1) Electrode material. Due to its good conductivity, copper foam can be widely used as an electrode framework material for new batteries such as nickel-zinc batteries and double layer capacitors. Currently, copper foam is tested and widely used in many nickel-zinc batteries. At the same time, copper foam is expected to find wide application as an electrode liquid collector for double-layer capacitors. In addition, the use of copper foam as an electrode material for the electrolytic recovery of copper effluents is promising. (2) Catalytic converter. In many organic chemical reactions, instead of stamped copper plates, it is attempted to use copper foam with its large specific surface area directly as a catalyst for chemical reactions. Copper foam has also been successfully used as a housing for photocatalytic gas purification. (3) Heat conductive materials. Copper foam has good thermal conductivity and is therefore a flame retardant material with excellent performance, used abroad in many modern fire extinguishing equipment, especially as a flame insulation device with excellent results. In addition, the good thermal conductivity and apparent permeability of copper foam is used to produce heat dissipation materials for motors and electrical appliances. (4) Damping and shielding materials. On the surface of copper foam, sound waves are diffusely reflected and the sound dampening effect is achieved by the principles of expansion and micro-hole attenuation. The shielding performance of copper is close to that of silver and it is an excellent material for electromagnetic shielding. (5) Filter material. Copper foam products, which have good structural properties and are generally harmless to the human body, are also successfully used as filter materials in healthcare. At the same time, the application of copper foam in water treatment plants has a promising future. (6) Buffer material for liquid pressure. The dispersion and buffering effect of copper foam on liquids makes it an excellent pressure-reducing protection device for various pressure gauges.
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