High Filtration Efficiency: Captures 99.97% of airborne particles as small as 0.3 microns.
Low Airflow Resistance: High-efficiency fabric ensures optimal airflow while maintaining superior filtration performance.
Durable and Long-Lasting: Engineered for extended use without compromising on efficiency.
Versatile Applications: Our HEPA filter cloth is suitable for use in air purifiers, HVAC systems, and medical devices.
Eco-Friendly Composition: Made from environmentally friendly materials, available with F08 fabric, H10 fabric, H11 fabric, H12 fabric, H13 fabric and H14 fabric, promoting sustainability.
Brand Name | SENCI | |||
Loading Port | Shanghai /QingDao or Others | |||
Permeability% | 100-Filtration Efficiency% | |||
Product Name | Grade | Weight:G/SM | Pressure Drop (Pa)/Resistance mm H20 | Filtration Efficiency(%) |
FTSC-F08 | F8 | 15 | 3 Pa(0.3mm H2O) | 65 |
FTSC-H10 | H10 | 20 | 6 Pa(0.3mm H2O) | 85 |
FTSC-H11 | H11 | 20 | 8 Pa(0.3mm H2O) | 95 |
FTSC-H12 | H12 | 20-25 | 16 Pa(0.3mm H2O) | 99.5 |
FTSC-H13 | H13 | 25-30 | 26 Pa(0.3mm H2O) | 99.95 |
FTSC-H14 | H14 | 35-40 | 33 Pa(0.3mm H2O) | 99.995 |
Certification | ISDS,ROHS, REACH, Biological Compatibility Test |
· Medical Masks: High-efficiency fabric is crucial for medical masks, providing exceptional filtration efficiency and ensuring maximum protection against airborne particles and pathogens.
· Air Purifiers: This HEPA filter fabric is indispensable in air purifiers, significantly enhancing air quality by effectively trapping dust, pollen, and other contaminants.
· Industrial Filters: As one kind of non-woven air filter material, HEPA filter cloth plays a vital role in industrial filters, offering superior durability and high filtration performance in various demanding environments.
· Vacuum Cleaner Bags: H10 fabric, H11 fabric, H12 fabric, H13 fabric, and H14 fabric are essential for vacuum cleaner bags, ensuring optimal dust retention and maintaining cleaner indoor air quality.
High-efficiency fabric meltblown is produced in a process where polypropylene granules are melted and molten polymer is extruded through spinnerets. The continuous filaments are cooled and deposited on a convey or to form a uniform web. Calendering uses heat and high pressure applied through rollers to weld the fiber webs together at speed. This results in a soft, uniform meltblown HEPA filter fabric.
1. Infunde the grainy type polypropylene into the pond.
2. Polypropylene is conveyed to the inside of the machine body and melt.
3. The melt PP will be delivered to the spinning pump and spin, fine draw, the melt PP changes into superfine fiber.
The temperature of superfine fiber is cooled by the side cold air and it will be further stretched during cooling.
4. the stretched superfine fiber is transferred to the web former, forming the embryonic form of non-woven PP meltblown fabric.
5.The non-woven fiber web transfers to calender by net screen and will be pressed by calendar, rolling up the completed meltblown HEPA filter fabric rolls.
6. cut off the edges on both sides, eventually become a non-woven coiled high-efficiency fabric material.