XYEHS F9-U15 Antibacterial & Antiviral HEPA Melt-blown Filter Media, Filtering Material for Air Filters, Air Particles, Clean Living Basic Dust Small as 0.3 Microns

Specifications:

Features:

• Antibacterial & Antiviral Properties: The material has in-situ modification that provides a high bacteriostatic rate of over 99.99% against Escherichia coli, Staphylococcus aureus, and Klebsiella pneumoniae, as well as a high antiviral activity rate of over 99% against the H1N1 virus.
• High Filtration Efficiency: The melt-blown medium has a unique wick structure with ultra-fine fibers that increase the number and surface areas of fibers per unit, resulting in superb filtering performance against particles as small as 0.3 microns.
• Low Resistance: The material has low resistance to air flow, ensuring efficient air filtration while maintaining a comfortable air flow rate.
• Charge Stability: The three-dimensional mesh fiber structure of the melt-blown medium provides good uniformity and charge stability, ensuring that the material maintains its filtration performance over time.
• Versatility: The melt-blown medium is widely used in various applications, including automobiles-cabin air filters, air purifiers for household and commercial use, protective masks, medical masks, and fresh air systems.

Technical Advantage:

• In-situ Modification Technology: This technology allows for the integration of antibacterial and antiviral functions into the material, increasing its effectiveness in intercepting 0.3um particles and inhibiting the reproduction of bacteria and viruses.
• Molecular Weight Controllable Regulation Technology: This technology enables the regulation of the molecular weight of the material, resulting in enhanced filtration efficiency.
• Friction Electret Technology: This technology creates an electrostatic charge in the material, which helps to capture small particles and improve the filter’s overall efficiency.
• Superfine Nanofiber Controllable Technology: This technology produces superfine fibers in the material, increasing the number and surface area of fibers per unit and enhancing the filter’s filtering, shielding, thermal-insulating, and oil-absorbing properties.
• Low Resistance: The combination of the above technologies results in a material with high efficiency and low resistance, reducing the burden on air circulation systems and improving energy efficiency.