316L Five-layer sintered mesh filter disc is a highly durable and efficient filtration material that is created by bonding together five layers of wire mesh  with varying openings and diameters through a process called sintering. This process involves bonding the contact points of the� wire meshes� together in a vacuum, resulting in a seamless, porous material with� enhanced mechanical strength, high permeability, and superior structural integrity. The sintering procedure boosts the mechanical strength of the coarser support layers while maintaining the filtration rating of the finest mesh layer. Additionally, heat and pressure are used to create molecular diffusion welds at every intersection of the wire mesh, further improving the temperature and pressure resistance of the sintered mesh. 316L Five-layer sintered mesh filter disc is widely used in gas distribution,� polyester filtration, water treatment, and other applications where reliable and high-quality filtration is required. Parameters Material:� Stainless steel 316 L Filtration accuracy:� 50 microns Heat resistance:� 600 �°C Size: Diameter95mm*Thickness6.0mm Features Exceptional Mechanical Strength and Stability: The sintering process creates a seamless, integrated material that offers unparalleled mechanical strength and stability, making it highly resistant to wear and tear. High Permeability: The porous nature of the sintered wire mesh filter allows for maximum flow rates, making it ideal for applications where high levels of permeability are required. Corrosion Resistance: Stainless steel is inherently resistant to corrosion, making it an excellent choice for applications where exposure to harsh environments is a concern. Versatile Fabrication: Stainless steel sintered wire mesh filters can be easily fabricated into a variety of shapes and sizes, allowing for customization and versatility in a range of applications. Applications The versatile and efficient stainless steel sintered wire mesh filter finds use in a wide range of applications. It is commonly employed in the filtration of a variety of substances including polymers, food, water, cosmetics, pharmaceuticals, and chemicals. Additionally, it is utilized in the fluidization of bulk materials in conveyors, driers, coolers, and� storage silos, as well as in hydraulic fuel filtration. Its ability to withstand harsh environments and maintain reliable filtration performance makes it a popular choice across industries.