Petroleum chemical industry stainless steel filter wire mesh
(1)Plain/Twill weave stainless steel wire mesh has good performance at acid-resisting, alkali-resisting and anticorrosion.To get more news about galvanized steel wire mesh, you can visit resenwiremesh.com official website.
(2)High strength, good tension\toughness and abrasion performance, durable in use.
(3)Resistance to high temperature oxidation, 304 stainless steel wire mesh nominal resistance temperature is 800 degree Celsius, 310S stainless steel wire mesh nominal resistance temperature can reach 1150 degrees Celsius.
(4)Room temperature processing, easy to do plastic processing, make the possible use of stainless steel wire mesh diversified.
(5)Good surface finish, no need to do any surface treatment, with convenient and simple maintenance.
Plain/Twill weave stainless steel wire mesh is used for screening and filtering in acid or alkali environment. As mud mesh in oil industry, chemical packing nets, chemical fiber industry as screen mesh, electroplating industry as pickling nets
Here at Norman Filter Company, we have received many questions regarding how to clean your filter elements properly. The purpose of the details below is to provide general cleaning instructions for all welded Stainless Steel Elements with various filtration media types.
Wire Mesh – Fine micronic wire mesh media in which the warp and weft wires pass alternately over two and under two wires (twill) and in which the warp wires are heavier in diameter than the west wires (dutch). Wire mesh is a surface type filtration media.
Random Metal Fiber (RMF) – Filtration media in which metal fibers are randomly pressed and sintered to form a porous material that can be used in different shapes, pleated or not, without affecting the filtration characteristics. RMF is a depth type of filtration media.
Porous Sintered – Filtration media in which metal powders are pressed and sintered to form a porous material used for depth filtration. Porous sintered material is a depth type of filtration media.