High precision titanium powder sintered filter has an irreplaceable position in many high-end fields such as chemical industry, pharmaceuticals, food and beverage, water treatment, medical treatment, environmental protection, etc. Its unique three-dimensional mesh pore structure is achieved by precisely controlling the powder particle size and sintering parameters, and has deep filtration characteristics, which can intercept submicron particles.
Technical Data: • Filtration accuracy: 0.1μm - 50μm • Tolerant pH range: 1-14 • Working temperature: -50℃ ~ 280℃ • Working pressure: ≤6MPa (conventional) • Initial pressure drop: <0.01MPa (water medium @25℃) • Theoretical flow rate: 0.3-5t/h (single rod φ60×300mm)
Filter Material: Sintered titanium powder filters we produce use high-purity titanium metal powder particles and have excellent filtration quality. • Raw material purity: ≥99.5% titanium sponge or spherical titanium powder, oxygen content <0.15% • Biocompatibility: Certified by USP Class VI and ISO 10993 • Electrical conductivity and explosion-proof: Avoid the risk of static electricity accumulation when filtering flammable solvents 
Application Scenario: ✅ High-temperature dust removal of waste incineration flue gas (>300℃) ✅ Fuel cell gas purification ✅ Seawater desalination pretreatment ✅ Cold sterilization of wine ✅ Plant extract removal ✅ Edible oil precision filtration
Supply Filter Interfaces: We supply customized high precision titanium powder sintered filter.Have shipped filter interfaces: 
FAQ: Q: Does it support non-standard customization? A: The filtration accuracy, interface size and shell material can be customized.
Q: Titanium powder sintered filter replacement cycle? A: Under normal working conditions, it is recommended to be 12-36 months, which actually depends on the degree of medium contamination.
Q: What is the shelf life of the titanium powder sintered filter? A: Usually 3 years, but the storage conditions will affect the actual service life. It should be stored in a dry and dark environment.
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