High temperature filter cartridge new material nickel alloy foam metal
Product Description:
High-temperature filter cartridges are used to filter solid particles or other impurities in high-temperature environments. In order to cope with the harsh conditions in high temperature environments, filter element materials need to be characterized by high temperature resistance, corrosion resistance and wear resistance. Nickel alloy foam metal is a new material for high-temperature cartridges that is widely used and has many excellent properties.
Nickel alloy foam metal is a porous structure made of nickel alloy material, similar to a sponge. This structure provides a large surface area for trapping and filtering tiny particles and impurities. Nickel alloy foam metal has the following characteristics:
1. High Temperature Resistance: Nickel alloys inherently have excellent high temperature resistance and are suitable for applications in high temperature environments such as oil refineries and chemical industries.
2. Corrosion resistance: Nickel alloy has strong corrosion resistance, which can resist the erosion of many chemicals, thus extending the service life of the cartridge.
3. Strength and lightweight: Nickel alloy foam metal is relatively lightweight while maintaining a certain degree of strength, which is beneficial to reducing the load on the equipment as well as facilitating the maintenance and replacement of cartridges.
4. Malleability: The porous structure of the metal foam can be customized to fit different sizes and shapes of filtration equipment.
5. Low Resistance: The open structure of foam metal reduces the resistance of fluids as they pass through the cartridge, helping to maintain proper fluid flow.
6. Ease of Cleaning: The relatively open structure of the foam metal makes it easier for the cartridge to remove accumulated particles when cleaning is required, thus maintaining its filtration efficiency.
Applications:
This nickel alloy foam metal can be used as a filtration cartridge in many high-temperature environments, such as high-temperature gas filtration, intake air filtration in gas turbines, and purification of high-temperature kiln exhaust gases. However, the suitability of the material for the application still needs to be evaluated on a case-by-case basis to ensure that it meets the filtration requirements and is able to operate consistently over a long period of time.