Multi-layered diffusion-bonded stainless steel mesh is a type of sintered stainless steel mesh that is created through the bonding of multiple layers of wire meshes with varying openings and diameters using the process of sintering or diffusion bonding. The sintering process involves subjecting the stacked wire meshes to heat and pressure in a vacuum environment, resulting in the fusion of the wires and the formation of a strong and durable multi-layered mesh structure. To produce our multi-layered laminate, a fine woven wire mesh is placed between two layers of coarser square woven meshes. These layers are then combined with two layers of a robust Dutch woven wire mesh and bonded through sintering, resulting in a sturdy plate-like structure. The fine woven wire mesh acts as the filtration layer and can be customized to achieve specific filtration ratings, ranging from 1 micron to 300 microns. Specifications: - Material: Stainless steel wire - Production: Woven/perforated, vacuum sintering - Layers: 5 layers - Diameter: 60mm - Height: 46mm - Wall Thickness: 1.7mm - Filter precision: 100 microns - Working temperature: -200�°C - 1000�°C What are the applications of 5-layer sintered stainless steel wire mesh? 1. Filtration: The mesh is widely used for filtration purposes in industries such as chemical processing, pharmaceuticals, food and beverage, water treatment, oil and gas, and automotive. It effectively removes impurities, solid particles, and contaminants from liquids and gases. 2. Fluidization: The mesh is employed in fluidization processes for bulk materials in conveyors, wagons, driers, coolers, and storage silos. It facilitates the controlled flow and uniform distribution of particulate materials. 3. Cross-flow Filtration: It is utilized in cross-flow filtration applications, such as membrane filtration systems, where a pressure-driven separation process is employed to separate solids from liquids. 4. Analytical Devices: The mesh is integrated into analytical devices and instruments used in laboratories and research facilities for various analytical processes, including sample preparation, chromatography, and particle analysis. 5. Polymer Filtration: It finds applications in the filtration of polymers during manufacturing processes, ensuring the removal of contaminants and achieving consistent product quality. 6. Oil Filtration: The mesh is used in oil filtration systems, such as hydraulic and lubrication systems, to remove particles, sludge, and impurities from the oil, thereby extending the lifespan of machinery and equipment. 7. Gas Filtration: It is employed in gas filtration applications, including air purification systems, gas separation processes, and emission control systems, to remove particulate matter and contaminants from gases.