1. Ultra-High Precision: 0.2mm micro-holes with ±0.02mm size deviation ensure uniform filtration and consistent performance, meeting the strictest precision requirements for microelectronics and biomedical applications. 2. Class 100 Cleanroom Certified: Undergoes strict cleaning and packaging processes to remove all contaminants, making it suitable for use in semiconductor manufacturing and sterile pharmaceutical environments. 3. Excellent Corrosion Resistance: 316L stainless steel resists corrosion from chemicals, biological fluids, and cleaning agents, ensuring long service life in harsh precision environments. 4. Smooth & Contamination-Free Surface: Electropolished surface with Ra ≤ 0.4μm prevents particle adhesion and ensures easy cleaning, maintaining filtration efficiency over time. 5. High Filtration Efficiency: 0.2μm filtration precision effectively filters tiny particles, bacteria, and contaminants, ensuring product purity and process reliability. 6. Customizable Options: Supports custom hole diameters (0.1mm-1.0mm), pitch sizes, and sheet sizes to match specific precision application needs.
The standard sheet size is 600mm × 1200mm, with a thickness of 0.5mm to ensure structural stability while maintaining ultra-small hole precision. Micro-holes have a diameter of 0.2mm, with a center-to-center pitch of 0.5mm, providing a 12.5% open area for efficient fluid flow and filtration. The electropolished surface has a roughness of Ra ≤ 0.4μm, meeting cleanroom requirements and preventing particle accumulation. The filtration precision is 0.2μm, effectively removing 99.99% of particles larger than 0.2μm. The sheet’s tensile strength is 480MPa, ensuring it can withstand pressure during filtration without deformation. All sheets are packaged in sealed, sterile bags to maintain cleanliness, and each batch undergoes strict quality inspection to ensure hole size and distribution meet specifications.
1. Microelectronics Manufacturing: Used in wafer processing, photolithography, and semiconductor packaging to filter gases and liquids, removing tiny particles that could damage chips. 2. Pharmaceutical & Biomedical: Applied in sterile filtration of injectable drugs, cell culture media, and biological samples, ensuring product purity and compliance with GMP standards. 3. Precision Instrumentation: Serves as a flow control orifice for analytical instruments, such as HPLC and mass spectrometers, ensuring accurate fluid flow rates. 4. Aerospace & Defense: Used in fuel system filters for missiles and satellites, providing high-precision filtration to protect sensitive engine components. 5. Environmental Monitoring: Applied in air and water quality monitoring equipment to filter samples for trace analysis, ensuring accurate test results. 6. Printing & Textile: Used in ink jet printing nozzles and textile dyeing filters, ensuring uniform flow of inks and dyes to improve product quality.
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