Three-proof polyester needle felt reduces static electricity by incorporating composite conductive materials, effectively minimizing static electricity generated from friction. Building upon the foundation of regular antistatic needle felt, it undergoes specialized chemical treatment to enhance its "waterproof and oil-resistant" capabilities.
Material | Polyester fiber/Polyester anti-static base fabric | |
Weight | g/m² | 450-600 |
Thickness | mm | 1.4-1.8 |
Air permeability | m3 / m2 / min | 13-16 |
Tensile strength | Warp | 1000 |
Weft | 1300 | |
Tensile elongation | Warp | 25 |
Weft | 50 | |
Temperature | ||
Continuos temperature | C° | 120 |
Instant temperature | C° | 150 |
Triboelectric Potential (maximum value) | C° | 250 |
Triboelectric Potential (average) | C° | 183 |
Surface lectric Core Surface Degree | mc/m2 | 3.4 |
Finish treatment | calendering, singeing or Teflon coating |
Material | Polyester fiber/Polyester anti-static base fabric | |
Weight | g/m² | 450-600 |
Thickness | mm | 1.4-1.8 |
Air permeability | m3 / m2 / min | 13-16 |
Tensile strength | Warp | 1000 |
Weft | 1300 | |
Tensile elongation | Warp | 25 |
Weft | 50 | |
Temperature | ||
Continuos temperature | C° | 120 |
Instant temperature | C° | 150 |
Triboelectric Potential (maximum value) | C° | 250 |
Triboelectric Potential (average) | C° | 183 |
Surface lectric Core Surface Degree | mc/m2 | 3.4 |
Finish treatment | calendering, singeing or Teflon coating |
Reduction of Static Electricity:
It composite conductive materials to effectively minimize static electricity generated from friction. This is crucial in environments like cement plants where dust particles can easily become charged and adhere to surfaces.
Waterproof and Oil-Resistant:
Through specialized chemical treatment and nano-level waterproof and oil-resistant treatment, the filter material enhances its resistance to water and oil. This prevents issues such as condensation and adhesion, ensuring the longevity and efficiency of the filter bag.
Lotus Leaf Effect:
The nano-level treatment creates a "lotus leaf effect," making the filter material highly resistant to water and oil penetration upon contact. This further contributes to the prevention of condensation and adhesion, maintaining the effectiveness of the filter in capturing dust particles.
Antistatic Properties:
The material not only reduces static electricity but also possesses antistatic properties, which are essential in environments where static charge buildup can disrupt filtration efficiency.
High Dust Removal Efficiency:
It's designed to have high dust removal efficiency, ensuring effective capture of dust particles even in high-dust environments like cement plants.
High Strength and Porosity:
Exhibits high strength and porosity, allowing it to withstand the harsh conditions of cement plants while maintaining optimal airflow and filtration performance.
Low Gas Filtration Resistance:
Despite its high efficiency in capturing dust particles, the filter material offers low gas filtration resistance. This ensures that airflow is not significantly impeded, leading to efficient operation of the filtration system.
Suitability for High-Humidity Environments:
Specifically suitable for environments with higher humidity levels, addressing challenges associated with moisture accumulation and ensuring consistent performance even in such conditions.
Reduction of Static Electricity:
It composite conductive materials to effectively minimize static electricity generated from friction. This is crucial in environments like cement plants where dust particles can easily become charged and adhere to surfaces.
Waterproof and Oil-Resistant:
Through specialized chemical treatment and nano-level waterproof and oil-resistant treatment, the filter material enhances its resistance to water and oil. This prevents issues such as condensation and adhesion, ensuring the longevity and efficiency of the filter bag.
Lotus Leaf Effect:
The nano-level treatment creates a "lotus leaf effect," making the filter material highly resistant to water and oil penetration upon contact. This further contributes to the prevention of condensation and adhesion, maintaining the effectiveness of the filter in capturing dust particles.
Antistatic Properties:
The material not only reduces static electricity but also possesses antistatic properties, which are essential in environments where static charge buildup can disrupt filtration efficiency.
High Dust Removal Efficiency:
It's designed to have high dust removal efficiency, ensuring effective capture of dust particles even in high-dust environments like cement plants.
High Strength and Porosity:
Exhibits high strength and porosity, allowing it to withstand the harsh conditions of cement plants while maintaining optimal airflow and filtration performance.
Low Gas Filtration Resistance:
Despite its high efficiency in capturing dust particles, the filter material offers low gas filtration resistance. This ensures that airflow is not significantly impeded, leading to efficient operation of the filtration system.
Suitability for High-Humidity Environments:
Specifically suitable for environments with higher humidity levels, addressing challenges associated with moisture accumulation and ensuring consistent performance even in such conditions.