|Material:||iron wire,stainless steel wire|
|Application:||used for the production of polyester fibers and monofilament, plastic extrusion, auto, spray equipment, etc.|
Plain wire mesh filter disc
Filter Discs and Wire Mesh Discs are made of stainless steel woven wire mesh and wire cloth.
Materials: AISI316L, stainless steel woven wire cloth, stainless steel sintered web, phosphate bronze wire cloth and brass wire cloth, copper and other alloy materials, etc.
Marginal materials: Stainless steel, aluminum and nickel-plated copper.
Shapes: Round, rectangle, elliptical and other shapes.
Disc filters are provided in different shapes: Single piece or multiple layered.
Features: Wear-resisting, heat-resisting, acid-resisting and corrosion resisting.
Uses: Pack filters and wire mesh discs are mainly used in pharmacy, chemicals, chemical fibers, petroleum, etc.
Fineness: from 1mesh to 2800mesh (according to specifications of filtration media)
Dirt Holding Capacity
Metal filters are designed from three basic materials: wire cloth, expanded metal and perforated metal. Each material has its own flow rates and individual characteristics making it a “best fit” for particular engineering requirements. For example, perforated metals can be selected with round holes, square holes, or any other shape required based on size and or shape of the particulate that needs to be strained or filtered. Expanded metal and perforated metal filters offer superior rigidity and durability to wire cloth filters. For filters that require intricate bends and pleats to achieve proper performance characteristics, and where durability is less of a concern, wire cloth filters in mesh ranges from 2 x 2 to 5 micron mesh are the clear choice.
Metal Filter Materials
Wire cloth filters, expanded metal filters, and perforated metal filters can be designed and manufactured using the a wide range of materials:
Carbon Steel Filters
Galvanized Steel Filters
Stainless Steel Filters
Stainless Steel 304 Filters
Stainless Steel 316 Filters
In some applications, filter design requires a mix of materials for support or to develop a protective underlying or outer structure of expanded or perforated metal or a coarser mesh that guards delicate pleated interior components