H14 Composite Filter Media Material PTFE ULPA Filter Film ePTFE HEPA Filter Membrane
This high-efficiency composite filter media utilizes the irregular arrangement of PTFE microporous structure to effectively intercept dust particles in the air. The material features high filtration efficiency and low air resistance while maintaining excellent pressure differential balance. As a surface filtration method, dust accumulates on the membrane surface, allowing easy removal through vibration and rinsing with clean water.
Why Choose Our Composite Filter Media
- 100% purity of raw materials
- High porosity, excellent uniformity, and superior surface flatness
- Third-party certified performance metrics for waterproofing, moisture permeability, and air permeability (SGS, MSDS, INTERTEK, etc.)
- Excellent bi-component film fastness and high peel strength
- Customizable colors, patterns, and flame retardant surface treatments
- Wide applications in civil textiles, medical protection, industrial dust collection, and air filtration systems
Glass Fiber vs. Synthetic HEPA Filter Materials
Glass Fiber HEPA Filter Material
Our micro glass fiber paper is manufactured from fine microfibers through a comprehensive process including pulping, machine forming, gluing with binders, drying, and post-processing. This material offers exceptional chemical stability, high mechanical strength, superior thermal resistance, non-combustible properties, and excellent biocorrosion resistance.
Synthetic HEPA Filter Material
Our synthetic HEPA filter paper consists of polyester fabric laminated with polypropylene meltblown material using advanced laminating technology, providing enhanced durability and performance characteristics.
| Item |
Air Pressure Drop |
Dust Holding Capacity |
Application |
Material Structure |
| Glass fiber HEPA filter paper |
High |
Large |
HVAC systems, Hospitals, Microelectronics, Food industry |
Fragile |
| Synthetic HEPA filter paper |
Pretty low |
Medium |
Home air purifier, Ventilation unit, Cabin filter |
Good strength |
Glass Fiber HEPA Filter Material Specifications
Test conditions: Air flow 5.3cm/s @0.3um NaCl tested by TSI8130
| Filtration Class |
Weight (g/m²) |
Tensile, MD |
Tensile, CD |
Stiffness (mg) |
Combustibles (%) |
Air Pressure Drop (Pa) |
Efficiency (%) |
Water Repellency (Pa) |
| H10/MERV 15 | 75 | 1100 N/m | 800 N/m | 1100 | 8.5 | 110 | 95 | 5000 |
| H11/MERV 16 | 75 | 1100 N/m | 800 N/m | 1100 | 8.5 | 170 | 98 | 5000 |
| H12/MERV 17 | 75 | 1100 N/m | 800 N/m | 1100 | 8.5 | 230 | 99.5 | 5000 |
| H13/MERV 18 | 75 | 1100 N/m | 800 N/m | 1100 | 8.5 | 310 | 99.97 | 5000 |
| H14/MERV 19 | 75 | 1100 N/m | 800 N/m | 1100 | 8.5 | 370 | 99.995 | 5000 |
Synthetic HEPA Filter Material Specifications
| Filtration Class |
Weight (g/m²) |
Rated Air Flow |
Air Pressure Drop (Pa) |
Efficiency (%) |
| H10/MERV 15 | 93 | (5.3cm/s) | 12 | 95 |
| H12/MERV 17 | 98 | (5.3cm/s) | 22 | 99.5 |
| H13/MERV 18 | 103 | (5.3cm/s) | 32 | 99.97 |
Market Trends in HEPA Filter Paper
With increasing air pollution concerns, demand for high-quality air filtration continues to grow. According to industry statistics, consumption of both glass fiber HEPA paper and synthetic HEPA filter paper is increasing by approximately 15% annually. Since the COVID-19 pandemic began in 2020, this growth trend has accelerated to nearly 20% per year. Contact us for the latest market intelligence to maintain your competitive advantage.
Trusted by Industry Leaders
english
français
Deutsch
Italiano
Русский
Español
português
Nederlandse
ελληνικά
日本語
한국
