MaterialImported filter paper, glass fiber , stainless steel wire mesh Differential pressureUp to 300 bar Maximum lifetime6 Months, with the change of materials Installation DimensionAccording to product type or customized Sealing materialNBR , VITON , IIR etc. CertificationISO , IQNet Factory experience14 years After-sales Service ProvidedEngineers available to service machinery customized
Sintered Wire Mesh Filter Cartridge Feature 1. Sintered wire mesh filter cartridge is surface filtration 2. Sintered wire mesh filter cartridge is good for backwash because the pore passage of zwen sintered wire mesh aperture is very smooth 3. Sintered wire mesh filter cartridge has uniform pore size distribution 4. Wire mesh will not shed in filtration process 5. High compression strength 6. High mechanical strength 7. High rigidity 8. High abrasion resistance 9. Good durability against most liquids, gases and aggressive steam 10. High temperature resistance 11. High filter rating accuracy 12. High filter efficiency 13. Good corrosion resistance 14. Washable and Cleanable 15. Reusable 16. Long service life Sintered Wire Mesh Filter Cartridge Technical Parameter Raw Material: SS 316L, SS 304 Filter Media: ZWEN Sintered Wire Mesh Filter Rating: 0.5-300 Microns Filter Efficiency: > 99.99 % Operation Temperature: â?¤ 816 Outside Diameter: 10 mm, 15 mm, 25 mm, 30 mm, 50 mm, 60 mm, 63.5 mm, 65 mm,100 mm,150 mm, 250 mm, 380 mm, 500 mm or others Length: 40 mm, 90 mm, 127 mm, 254 mm, 508 mm, 762 mm, 1016 mm or others Gasket: PTFE, Viton, Silicone, Buna-n, EPDM Connector: 1. DOE 2. 220 3. 222 4. 226 5. Thread (NPT,BSP,G,M,R) 6. Flange 7. Special customization Application Polyester filtration, polymer filtration, high viscosity filtration, fuels and lubricants filtration, oil filtration, steam filtration, high temperature gas filtration, high temperature liquid filtration, steam filtration, potable and process water filtration, beverages filtration, detergent filtration, solvents filtration, pharmaceutical industry, chemical industry, chemical fiber industry, food industry
Multilayer Wire Mesh Filter Stainless Steel is a highly versatile and widely used filtration material that offers exceptional performance. With a total of 3 to 8 layers, typically consisting of 5 layers, this filter provides efficient filtration solutions. It is constructed using stainless steel wire woven or perforated into meshes, which are then vacuum sintered to form the Multilayer Wire Mesh Filter. The five layers of the Multilayer Wire Mesh Filter Stainless Steel include the protection layer, filtration control layer, dispersion layer, support skeleton layer, and skeleton layer. This design ensures optimal filtration efficiency and durability. The Multilayer Wire Mesh Filter Stainless Steel can be customized into various filter types, such as filter discs, filter tubes, and more. Specifications: - Material: Stainless steel wire 316L - Dia: 51mm. - Filtration accuracy: 10�¼m - Shape: cylinders - Connector: Customizable - Woven Type: Sintered Dutch woven wire mesh and sintered square woven wire mesh. Features: 1. High Filtration Efficiency: The multilayer design ensures effective particle retention and provides excellent filtration efficiency. 2. Durability: Made from high-quality stainless steel, this filter offers exceptional strength, corrosion resistance, and a long service life. 3. Easy Maintenance: The open structure of the wire mesh facilitates easy cleaning, backwashing, and replacement when necessary. 4. Versatility: Suitable for a wide range of applications, including liquid filtration, gas filtration, hydraulic systems, oil refining, chemical processing, and more. 5. Customizable: Can be tailored to meet specific filtration requirements, including size, micron rating, and shape. Applications: - Petrochemical Industry: Used for oil and gas filtration, catalyst recovery, and refining processes. - Food and Beverage Industry: Ensures product quality by removing impurities from liquids and gases during production. - Pharmaceutical Industry: Critical for sterile filtration in drug manufacturing and laboratory applications. - Water Treatment: Used in municipal and industrial water treatment systems to remove contaminants and improve water quality. - Automotive Industry: Essential for filtration in engine oil, fuel, and hydraulic systems, ensuring optimal performance and longevity. - Aerospace Industry: Employed in hydraulic and fuel systems to maintain cleanliness and prevent component damage.
Sintered mesh filters are resistant to high temperatures and corrosion, so they are usually used for purification and filtration of liquids and gases, separation and recovery of solid particles, transpiration cooling at extreme high temperatures, and airflow control distribution. Filter cartridges are made of stainless steel 304/316L. Sintered mesh cartridges are available in the operating range from -150C to +300C with differential pressures up to 25 bar. Material:stainless steel304/316L Technique:wire mesh Thickness: is determined by the number of layers of sintered wire mesh, five layers of standard sintered wire mesh thickness is generally 1.7mm. Size: According to the size of the sintering furnace chamber, the common specifications are 500mmX1000mm, 1000mmX1200mm. High strength: high strength even after high temperature sintering, up to 600C Durable and corrosion-resistant: maintains a stable structure at high temperatures and pressures or in highly acidic environments. High filtration accuracy, customizable: filtration accuracy from 1 micron to 8000 microns Widely used: widely used for uniform filtration in high-pressure or high-viscosity environments, such as petroleum, chemical and food grade filtration. Why use wire mesh filter? Stainless steel sintered wire mesh filter is a new type of filtration material which is made of multi-layer metal wire mesh through special laminated pressing and vacuum sintering process, with high mechanical strength and overall steel. The pores of each layer of wire mesh are interlaced to form a uniform and ideal filtration structure, which not only overcomes the shortcomings of ordinary metal wire mesh with low strength, poor rigidity and unstable mesh shape, but also can reasonably match and design the material's pore size, penetration performance and strength characteristics, so as to make it have excellent filtration precision, filtration impedance, mechanical strength, abrasion resistance, heat resistance, and the comprehensive performance is significantly better than that of sintered metal powder and sintered metal powder, and the overall steel. The comprehensive performance is significantly better than other types of filter materials such as sintered metal powder, ceramics, fiber, filter cloth, filter paper and so on. What's the structure of the wire mesh filter Metal sintered filter is a widely used standard structure of sintered wire mesh, generally five-layer structure, divided into five parts: protective layer, filtration and control layer, dispersing layer, supporting skeleton layer, and skeleton layer.
A 316 stainless steel wire mesh filter ring refers to a filtration device made from 316-grade stainless steel wire mesh material in the form of a ring. Stainless steel wire mesh is a popular material choice for filters due to its durability, corrosion resistance, and excellent mechanical properties. The 316 stainless steel grade is specifically known for its enhanced resistance to corrosion, particularly in environments containing chlorides, such as saltwater or marine applications. This makes it suitable for various industries where filtration is required, including chemical processing, oil and gas, food and beverage, pharmaceuticals, and wastewater treatment. Specifications Wire materials: SUS316L Wire diameters: 0.5 mm Diameters: 60mm Length: 50mm Weaving methods: plain weave Layer: multiple five layers Filtration precision: 100 �µm Features Physical Properties: The 316 stainless steel sintered wire mesh filter ring exhibits several outstanding physical properties, including high tensile strength, high dirt holding capacity, high strength, resistance to high pressure, precise filtering accuracy, resistance to wear, excellent abrasion resistance, and high temperature resistance. Chemical Properties: This filter ring demonstrates excellent chemical properties, with acid resistance, alkali resistance, and corrosion resistance. Process Properties: The filter ring has a controlled and uniform porosity, long service life, precision-punched without burrs, compatibility with most fluids, weldability, ease of installation and removal, and it can be easily cleaned and reused. Applications Oil and Gas: The oil and gas industry effectively employs diffusion-bonded metal wire mesh to prevent sand in various types of formation sands and for various gravel packing applications. Fluidization: Sintered wire mesh is used to fluidize bulk powders and solids under the most challenging conditions, such as extreme temperatures and highly corrosive environments. Power Generation: Diffusion-bonded wire mesh maximizes the performance of power generation filtration systems, suitable for applications like reactor water purification and fuel pool purification. It also helps reduce operational costs for condensate water filters and polishing systems. General Industry: General industry applications of sintered wire mesh include catalyst recovery, steam filtration, polymer filtration, desalination, and more.
The stainless steel micron wire mesh filter tube is a filter element made primarily of 304 or 316 stainless steel wire mesh. It is manufactured using stainless steel wire mesh woven in various mesh shapes to achieve the desired filtration grade. The stainless steel wire mesh filter tube has uniform surface filtration performance and employs multi-layered sintered stainless steel mesh as the main filter material. The mesh has interlaced pores, making it resistant to high temperatures, sudden temperature changes, and corrosion, making it suitable for various corrosive media such as acids and alkalis. The stainless steel micron wire mesh filter tube is a filter element with extremely high compressive strength, making it suitable for filtration applications where high-pressure fluids flow. Due to the inherent advantages of stainless steel filter cartridges, they can be easily customized to meet specific material, strength, flow rate requirements, thickness, micron rating, and environmental conditions. Parameters Diameter: 20 mm Wall Thickness: 2 mm Operating Temperature: 600 C Filtration Precision: 100 microns Connections: Open on both ends Features High Pressure Differential: It is a filter element with high pressure resistance, commonly used in high-pressure fluid filtration applications to ensure long-term operation of equipment in high-pressure pipelines. High Temperature Resistance: Stainless steel material can withstand prolonged operation at high temperatures. While other materials may deform under high temperatures, stainless steel filter cartridges remain stable. Cleanable: The material is stainless steel, which is easy to clean and reuse. Cleaning the equipment involves removing impurities and reinstalling it for further operations. It allows for fluid backwashing, ensuring no residual contaminants on the surface of the stainless steel filter cartridge. Long Lifespan: The filter element has certain corrosion resistance and a longer service life. Its corrosion resistance makes it an ideal filtration element for preventing secondary contamination of fluids. Customizable Sizes: It comes in different sizes to be used in a wide range of industrial applications. Different sizes can easily adapt to different types of equipment. It also offers different sealing rings or gasket attachments for various applications. Stable Aperture: The filtration medium has a fixed pore structure, preventing contaminated particles from returning to the clean fluid. The absolute rated value of the pores provides consistent and reliable fluid filtration, improving filtration efficiency.
The stainless steel micron wire mesh filter tube is a filter element made primarily of 304 or 316 stainless steel wire mesh. It is manufactured using stainless steel wire mesh woven in various mesh shapes to achieve the desired filtration grade. The stainless steel wire mesh filter tube has uniform surface filtration performance and employs multi-layered sintered stainless steel mesh as the main filter material. The mesh has interlaced pores, making it resistant to high temperatures, sudden temperature changes, and corrosion, making it suitable for various corrosive media such as acids and alkalis. Parameters Diameter: 20 mm Wall Thickness: 2 mm Operating Temperature: 600�°C Filtration Precision: 100 microns Connections: Open on both ends Features High Pressure Differential: It is a filter element with high pressure resistance, commonly used in high-pressure fluid filtration applications to ensure long-term operation of equipment in high-pressure pipelines. High Temperature Resistance: Stainless steel material can withstand prolonged operation at high temperatures. While other materials may deform under high temperatures, stainless steel filter cartridges remain stable. Cleanable: The material is stainless steel, which is easy to clean and reuse. Cleaning the equipment involves removing impurities and reinstalling it for further operations. It allows for fluid backwashing, ensuring no residual contaminants on the surface of the stainless steel filter cartridge. Long Lifespan: The filter element has certain corrosion resistance and a longer service life. Its corrosion resistance makes it an ideal filtration element for preventing secondary contamination of fluids. Customizable Sizes: It comes in different sizes to be used in a wide range of industrial applications. Different sizes can easily adapt to different types of equipment. It also offers different sealing rings or gasket attachments for various applications. Stable Aperture: The filtration medium has a fixed pore structure, preventing contaminated particles from returning to the clean fluid. The absolute rated value of the pores provides consistent and reliable fluid filtration, improving filtration efficiency. Applications Petrochemical and oilfield pipeline filtration Gasoline filtration for engineering machines and refueling equipment Water treatment equipment filtration Pharmaceutical and food processing industries Chemical liquid filtration Suitable for pre-processing and post-processing systems in industries such as electronics, petroleum, chemical, pharmaceuticals, and food.
4-layers Sintered Titanium Wire Mesh Filter Plate is an innovative material consisting of four layers of titanium stretched mesh delicately sintered together. The titanium tensile mesh is used as the basic structure, and the thin sheet-like mesh structure made of pure titanium material gives the mesh material excellent strength and excellent corrosion resistance. This material cleverly stacks multiple layers of titanium stretched mesh and connects them tightly by high-temperature sintering process to form a strong structure of 4-layers Sintered Titanium Wire Mesh Filter Plate. Each layer of titanium tensile mesh plays an important role in the four-layer sintered titanium mesh. The first layer of tensile mesh provides the strength and corrosion resistance of the foundation, laying a solid foundation for the overall structure. The superposition of the second layer and the third layer increases the strength and stability of the material, enabling the sintered titanium mesh to withstand greater load and pressure. The introduction of the fourth layer further enhances the impact resistance and durability of the overall structure. Parameter Material: GR1 titanium Length*Width: 230mm*240mm Mesh number: 10 mesh Layers: 4 layers Technique: use 4 pieces of titanium expanded mesh by sintering
The sintered conical wire mesh filter strainer is meticulously crafted from stainless steel sintered wire mesh through precise cutting and welding techniques. The utilization of a rolling seam welding process guarantees exceptional roundness and flatness. Thanks to its cone-shaped design, the sintered cone filter offers superior diversion, separation, and filtration capabilities. Tailored to meet customers' preferences, the bottom of the stainless steel sintered mesh cone filter can either be flat or pointed. Whichever configuration is chosen, this filter exhibits remarkable dirt-holding capacity, making it a popular choice for three-in-one filtration purposes encompassing filtering, washing, and drying applications across various industries such as chemistry, food processing, beverage, and pharmaceuticals, among others. Parameters Material:� 316 L stainless steel, 304 stainless steel Filtration precision:� 1 micron to 300 microns Size:� as the drawing required Features Superior Filtration: The cone design maximizes the filtration area, enabling a larger filtration surface compared to other filter shapes. This expanded surface area enhances the filter's capacity to capture and retain particles, resulting in more effective filtration. Enhanced Mechanical Strength: The sintering process employed in manufacturing the filter significantly enhances its mechanical strength. Sintering involves compacting and bonding the stainless steel particles at high temperatures, creating a solid and robust structure. Enhanced Diversion: The conical shape allows for better diversion of the fluid or gas flowing through the filter. It promotes a more efficient flow pattern, ensuring that the medium being filtered is evenly distributed across the filter surface. Versatile Applications: The cone-shaped filter finds wide application in various industries, including chemistry, food processing, beverage, and pharmaceuticals. Its versatility lies in its ability to perform three essential functionsâ??filtering, washing, and drying. Applications With regards to water treatment, sintered wire mesh cone filters efficiently remove impurities, sediment, and contaminants from water sources, ensuring clean and purified water for various applications. In gas filtration within fluidized beds, these filters effectively capture and separate particles, ensuring the optimal performance of the fluidized bed system. Additionally, their exceptional cleanability makes them ideal for use in sterile product environments, maintaining high levels of cleanliness and hygiene.
