High porosity and uniform pore size: Copper sintered filters form a porous structure through high-temperature sintering technology, with a high porosity (usually up to 30% -50%), which allows it to provide a larger flow area and reduce fluid resistance. The pore size distribution is uniform and can be adjusted from a few micrometers to several hundred micrometers according to different needs, ensuring precise filtration effect.
Excellent mechanical strength: After sintering treatment, a strong metallurgical bond is formed between copper particles, endowing the filter with extremely high compressive strength and wear resistance. Even in high-pressure environments, it can maintain shape stability and is not easily deformed or broken.
Good corrosion resistance: Copper itself has good oxidation resistance and chemical corrosion resistance, especially excellent performance in alkaline and neutral environments. Some specially alloyed copper sintered filters can also enhance their stability in acidic media.
Efficient thermal conductivity: Copper is an excellent thermal conductive material, so copper sintered filters have excellent thermal conductivity and are suitable for applications that require rapid heat dissipation, such as cooling systems, heating elements, etc
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