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Ducted nickel mesh is a kind of metal mesh with excellent ductility and corrosion resistance, which is widely used in many fields. features and advantages Ductility: The ductile nickel mesh has good ductility, can withstand large deformation and is not easy to break, and is suitable for application scenarios that require high flexibility and plasticity. Corrosion resistance: Nickel has good corrosion resistance, especially strong resistance to reducing chemicals and caustic alkalis, which enables the extended nickel mesh to maintain stable performance in humid and corrosive environments. Mechanical strength: The extended nickel mesh has high mechanical strength and can withstand certain tension and pressure to ensure stability and safety during use. Conductivity: Nickel is a good conductor, and the extended nickel mesh therefore also has a certain degree of conductivity, which can be used in applications where conductivity is required. Porosity: The porous structure of the extended nickel mesh is conducive to the passage of liquid or gas, while maintaining a certain filtering effect, suitable for filtration, screening and other fields.
Battery, wind power lightning protection extended aluminum mesh
Extended aluminum mesh, as the name suggests, refers to aluminum mesh products with good ductility. Ductility refers to the ability of a material to be stretched and deformed without breaking when subjected to external forces. As a lightweight metal, aluminum has high ductility, so it is widely used in the manufacture of aluminum mesh products of various shapes and specifications.
Sintered mesh is a mesh filter structure made of tiny particles (such as metal, plastic and other materials) through stacking, heating and other processes. During the production process, these tiny particles are stacked together to form a pile of particles, which are then "baked" together on a microscopic level by heating to form a mesh structure with many small holes. This mesh structure gives the sintered mesh the ability to filter fluids. Taking stainless steel sintered mesh as an example, the manufacturing process includes the steps of screen structure design, screen pretreatment, ultrasonic cleaning, vacuum sintering and machining. Through special lamination pressing and vacuum sintering processes, stainless steel sintered mesh has excellent filtration accuracy, filtration resistance, mechanical strength, wear resistance, heat resistance and processability.
Electrolytic cell extended titanium mesh
Titanium mesh is mainly used in electrolyzer stacks as part of the flow field or diffusion material, especially on the oxygen side, to replace the carbon-based gas diffusion layer used in fuel cells. Our titanium screens are made of expanded titanium that has been flattened and annealed to ensure a smooth and flat surface, suitable for electrolysers or fuel cell stacks. While most commonly used on the anode side of an electrolytic cell, titanium screens are also frequently used on the cathode side of an electrolytic cell.
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