Crafted from high-purity titanium powder (99.7% or greater) using a high-temperature sintering process, the Sintered Titanium water filter cartridge boasts a uniform structure with high pore density, ensuring excellent filtration precision and permeability. Resistant to acid, alkali corrosion, and high temperatures, this cartridge finds utility in solid-liquid and gas separation and purification. Offering outstanding service performance, it prevents secondary pollution, is simple to operate, supports online regeneration, and promises ease of cleaning with a long service life. Porous titanium filter cartridges, tailored for extreme operating conditions and aggressive fluids and gases, feature a robust, fixed pore structure fashioned from sintered titanium powder. This design enables the filter element to endure heat, high pressures, and repeated cleaning/backwash cycles, ensuring mechanical strength and corrosion resistance. TOPTITECH filter cartridges cater to a diverse range of applications, including corrosive liquids and gases, cryogenic fluids, high-viscosity solutions, process steam, high-temperature liquids and gases, and catalyst recovery. Specifications: - Material: High purity titanium - Pore size: 20 �¼m - Length: 500mm - Diameter: 60mm - Porosity: 30-40% - Temperature tolerance: 300C What are the advantages of titanium rod filter elements in water filtration? 1. Improved Water Quality: The titanium rod filters significantly enhanced the water quality by effectively capturing and removing fine particles and impurities, resulting in clearer and cleaner water. 2. Corrosion Resistance: Titanium is highly resistant to corrosion, making it ideal for use in water filtration applications where exposure to disinfection byproducts or aggressive water conditions is common. 3. Biocompatibility: Titanium is biocompatible, meaning it is non-toxic and does not react with water or affect water quality, making it safe for use in water filtration systems. 4.Chemical Inertness: Titanium is chemically inert, meaning it does not react with ozone or disinfection byproducts, ensuring that the filtration process is not compromised by chemical reactions.