Product Description
Standrad Sintered Mesh consists five layers:the protctive layer, the filter layer, the dispersion layer, two reinforcing meshes.
Due to its surface filtration structure and smooth mesh, it has good backwashing and regeneration performance.
Futhermore, this mesh is easy to be formed,machined and welded. It can be produced into many kinds of shapes such as circular,cartridge,cone and pleats.
Parameters
Filtration rating | 1-200 microns |
Material | 304SS, 316L SS, ect |
Connection Type |
*Standard interface, such as 222, 220, 226 *Fast interface *Flange connection *Tie rod connection *Threaded connection *Customized connection |
Seal material | EPDM, Nitrile ,PTFE , silicone , Viton and PFTE coated viton available on request. |
Features
1. Advantages of Stainless steel 5-layer sintered mesh filter element,
2. Multi-layer design: Through the multi-layer structure, the filter area of the filter element can be increased, the filtration efficiency and capacity can be improved, and the service life of the filter element can be extended.
3. High filtration precision: Through the difference in pore size between different layers, multi-stage filtration can be realized, and the filtration precision can be adjusted according to needs.
4. Corrosion resistance: stainless steel has good corrosion resistance, can adapt to the working environment of various acid and alkali media, and has a long service life.
5. High compressive strength: Due to the particularity of the sintering process, the stainless steel 5-layer sintered mesh filter element has high compressive strength and can withstand greater working pressure.
6. Easy to clean: The stainless steel material makes the filter element easy to clean and maintain, and it is convenient for repeated use.
Application field
Stainless steel 5-layer sintered mesh filter element is widely used in chemical industry, petrochemical industry, food and beverage, water treatment and other fields, especially suitable for occasions that require high filtration accuracy and harsh working environment.