The multi-layer sintered stainless steel wire mesh filter tube is a type of filter component. It is formed by multiple layers of fine stainless steel wire mesh and the gaps between the layers are bonded through a special high-temperature sintering process, creating a tubular structure. This type of filter tube typically employs high-quality stainlessThe manufacturing process of this type of filter tube involves several steps: Selection of high-quality stainless steel wire materials, such as 316L stainless steel wire, typically arranged in multiple layers. Selection of high-quality stainless steel wire materials. This causes the layers of wire mesh to sinter and fuse together, creating an integral filtering structure. Filter tubes form a fixed grid structure. With precise pore sizes and a certain level of filtration accuracy, effectively filtering out tiny particles and impurities in liquids or gases. Finally, the tube is cut or customized into different sizes and shapes to meet specific filtration requirements. The main features Effective Filtration: To ensure sterility and hygiene, pharmaceutical factories routinely perform thorough cleaning and disinfection of pharmaceutical tools and filtration equipment. Sintered stainless steel powder filters facilitate this process as steel, unlike other metals, has fewer pores that easily trap impurities. Micron-Level Pores: The mesh filter core can remove particles as small as 0.2 microns and can be customized for your specific equipment. Stainless steel's malleability and stable performance are robust. Choosing the appropriate stainless steel sanitary filter depends on its application within the processing unit. Easy Cleaning and Disinfection: The popularity of sintered stainless steel filters in the pharmaceutical industry stems from their ease of cleaning and disinfection. Maintaining equipment cleanliness ensures prolonged equipment lifespan while minimizing contamination risks. High and Low-Temperature Resistance: Stainless steel alloys are known for their excellent performance at both high and low temperatures. At high temperatures, stainless steel demonstrates outstanding compressive strength, making it suitable for high-temperature filtration needs. Conversely, at lower temperatures, stainless steel's tensile strength actually increases more than at room temperature, making it ideal for refrigeration and low-temperature filtration equipment.