The Sintered Stainless Steel Multi-Layer Wire Mesh Laminated Plate is a product constructed by overlapping multiple layers of woven wire mesh and subsequently sintering them in a vacuum furnace under high temperatures and pressures. This process enhances the strength and overall durability of the material while ensuring uniform filter aperture distribution. By addressing the limitations of individual layers such as reduced strength, poor rigidity, and unstable aperture size, this sintered multi-layer wire mesh plate offers a balanced combination of filter rating, permeability, and robustness. Ideal for applications demanding high filter accuracy, resistance to pressure differentials, abrasion, heat, cold, and processing, this product finds utility across various industries including petrochemicals, nuclear, synthetic fibers, pharmaceuticals, food, and aerospace. Sintering can be applied to various types of woven wire meshes, effectively bonding all wires together to prevent medium migration. Through the vacuum furnace sintering process, the wires are fused securely, ensuring stability and eliminating the risk of component failure or malfunctions in critical applications such as medical or hydraulic fluid filtration. Once sintered, the mesh structure remains fixed, preventing wire movement under pressure and ensuring consistent aperture sizes throughout its service life. Specification Material: Stainless steel wire Filtration precision: 1um Technic: Woven, vacuum sintering Layers: 5 layers Width: 20mm Length: 100mm Thickness: 5mm What is the structure of 5-layers stainless steel wire mesh plate? The structure of TOPTITECH's five-layer laminated board, a widely adopted sintered wire mesh design, involves layering a single fine wire mesh between two thicker square woven meshes and enclosing them within two robust Dutch woven metal wire meshes. This configuration is sintered to create a solid plate, with the subtle wire mesh acting as the filter bed. Customizable to specific filtration requirements ranging from 1 micron to 200 microns, this design offers versatility and precision in filtration applications.