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Automotive flame-retardant filter paper is mainly used in automotive air filters to filter the air entering the engine, preventing dust and impurities from entering the cylinder and thus extending the engine's lifespan. Meanwhile, its flame-retardant property ensures that the filter paper is less likely to catch fire in high-temperature and other environments, enhancing driving safety.
| Application | Air Filter | |
| Resin System | Acrylic Resin | |
| Model No. | OJWK-13528/ZR | |
| Test Item | Product Standards | Test Standard |
| Grammage | 135±5g/m2 | GB/T451.2-2002 |
| Air Permeability | 280±30 L/m2•s (△=200pa) | QB/T-2006 |
| Corrugation Depth | 0.30±0.05 mm | GB/T451.3-2002 |
| Thickness | 0.75±0.03 mm | GB/T451.3-2002 |
| Burst Strength | 280±50 kpa | GB/T454-2002 |
| Stiffness | 5.5±0.5 mn•m | GB/T2679.3-1996 |
| Max Pore Size | 58±5 μm | QC/T794-2007 |
| Mean Pore Size | 55±5 μm | |
| Note: color, size and each specification parameter can be changed as per customer's requirement. | ||
Fire Resistance: The flame retardant air filter paper is engineered to offer exceptional fire resistance, a crucial feature in automotive applications. It prevents the risk of fire hazards by not combusting easily under extreme conditions, which is particularly important in high-heat environments like engine compartments. This ensures both the safety of the vehicle and the longevity of the filtration system, especially in emergency situations where high temperatures could otherwise lead to catastrophic failures.
Heat Stability: Designed with high-heat stability in mind, this filter paper maintains its structural integrity and filtration efficiency even under elevated temperatures. Automotive engines can reach extreme heat levels, and this filter material is built to perform reliably, ensuring that it continues to effectively filter out contaminants without compromising its performance. Whether in a standard car engine or a high-performance vehicle, the filter ensures that the intake air remains clean, contributing to consistent engine operation.
Durability: The durability of this filter paper is another key advantage. It is built to endure the harsh conditions commonly found in automotive environments, such as exposure to dust, debris, and vibration. The robust construction of the material reduces the frequency of filter replacements, leading to lower maintenance costs and longer service life. Additionally, its resistance to wear and tear makes it a cost-effective solution over time.
Efficient Particle Capture: Equipped with a high-efficiency filtration system, the flame retardant air filter paper captures fine particles as small as 1-5 microns. This ensures that harmful particles, including dirt, dust, and soot, are kept out of the engine’s intake system, maintaining engine health and performance. This efficient particle capture helps in preventing damage to the engine components, ensuring smoother operation and reduced risk of wear
Automobile Engine Air Intake: Used to prevent the entry of dust and other particles into the engine, ensuring optimal air quality.
Safety Critical Areas: Ideal for environments where fire resistance is essential, such as in high-heat engine compartments.
Heavy Duty Vehicles: Suitable for trucks and industrial vehicles where higher levels of filtration are needed to handle intense engine conditions.
Performance Cars: Used in high-performance cars to maintain engine efficiency while preventing fire hazards.
Automotive flame-retardant filter paper is mainly used in automotive air filters to filter the air entering the engine, preventing dust and impurities from entering the cylinder and thus extending the engine's lifespan. Meanwhile, its flame-retardant property ensures that the filter paper is less likely to catch fire in high-temperature and other environments, enhancing driving safety.
| Application | Air Filter | |
| Resin System | Acrylic Resin | |
| Model No. | OJWK-13528/ZR | |
| Test Item | Product Standards | Test Standard |
| Grammage | 135±5g/m2 | GB/T451.2-2002 |
| Air Permeability | 280±30 L/m2•s (△=200pa) | QB/T-2006 |
| Corrugation Depth | 0.30±0.05 mm | GB/T451.3-2002 |
| Thickness | 0.75±0.03 mm | GB/T451.3-2002 |
| Burst Strength | 280±50 kpa | GB/T454-2002 |
| Stiffness | 5.5±0.5 mn•m | GB/T2679.3-1996 |
| Max Pore Size | 58±5 μm | QC/T794-2007 |
| Mean Pore Size | 55±5 μm | |
| Note: color, size and each specification parameter can be changed as per customer's requirement. | ||
Fire Resistance: The flame retardant air filter paper is engineered to offer exceptional fire resistance, a crucial feature in automotive applications. It prevents the risk of fire hazards by not combusting easily under extreme conditions, which is particularly important in high-heat environments like engine compartments. This ensures both the safety of the vehicle and the longevity of the filtration system, especially in emergency situations where high temperatures could otherwise lead to catastrophic failures.
Heat Stability: Designed with high-heat stability in mind, this filter paper maintains its structural integrity and filtration efficiency even under elevated temperatures. Automotive engines can reach extreme heat levels, and this filter material is built to perform reliably, ensuring that it continues to effectively filter out contaminants without compromising its performance. Whether in a standard car engine or a high-performance vehicle, the filter ensures that the intake air remains clean, contributing to consistent engine operation.
Durability: The durability of this filter paper is another key advantage. It is built to endure the harsh conditions commonly found in automotive environments, such as exposure to dust, debris, and vibration. The robust construction of the material reduces the frequency of filter replacements, leading to lower maintenance costs and longer service life. Additionally, its resistance to wear and tear makes it a cost-effective solution over time.
Efficient Particle Capture: Equipped with a high-efficiency filtration system, the flame retardant air filter paper captures fine particles as small as 1-5 microns. This ensures that harmful particles, including dirt, dust, and soot, are kept out of the engine’s intake system, maintaining engine health and performance. This efficient particle capture helps in preventing damage to the engine components, ensuring smoother operation and reduced risk of wear
Automobile Engine Air Intake: Used to prevent the entry of dust and other particles into the engine, ensuring optimal air quality.
Safety Critical Areas: Ideal for environments where fire resistance is essential, such as in high-heat engine compartments.
Heavy Duty Vehicles: Suitable for trucks and industrial vehicles where higher levels of filtration are needed to handle intense engine conditions.
Performance Cars: Used in high-performance cars to maintain engine efficiency while preventing fire hazards.
