Sintetički polipropilenski laminatni materijal u roli
Rola od sintetičkog polipropilenskog laminata
Prijave:
Koristi se za proizvodnju naboranih filtera
Predfilter za sistem filtracije zraka
Pogodno za sklopivi filter
Karakteristike proizvoda:
Korištenje sintetičkog polipropilena, postupno šifriranje proizvodnog procesa;
Nizak početni otpor, visok kapacitet zadržavanja prašine;
Dobra otpornost na plamen, standardi klasifikacije požara mogu zadovoljiti evropski DIN53438-F1;
Otpornost na vlagu može doseći 100%;
| br. | Artikl br. | Opis | |
| 1 | G4 plavo/bijela laminirana žičana mreža | 24”/610mm širine * 150m dužine Bijeli mediji: širina 610 mm; žičana mreža: širina 580 mm |
|
| 2 | 25” /635mm širine * 150m dužine Bijeli medij: širina 635 mm; žičana mreža: širina 605 mm |
||
| 3 | 20” /508mm širine * 150m dužine Bijeli medij: širina 508 mm; žičana mreža: širina 478 mm |
||
| 4 | 28” /711mm širine * 150m dužine Bijeli medij: širina 711 mm; žičana mreža: širina 681 mm |
||
| Tip | Dimenzije | Prosječno hapšenje | Vazduh Brzina |
Inicijal pritisak |
Visoka temperatura ℃ | |
| Š×D×V | Filter | % | m/s | ali | ||
| Klasa | ||||||
| AY-G3 | 0,61m*150m | G3 | ≤50 | 2.5 | 60 | 80 |
| IS-G4 | 0,61m*150m | G4 | ≤82 | 2.5 | 75 | 80 |
What is Synthetic Air Filter Media and Why is it Used in Filtration?
Synthetic air filter media is a man-made filtration material composed of engineered polymers such as polyester, polypropylene, or blended fibers. Unlike traditional materials like fiberglass or cellulose, synthetic media offers superior durability, moisture resistance, and customizable filtration efficiency. It is widely used in HVAC systems, automotive filters, and industrial applications because of its ability to capture fine particles while maintaining high airflow rates. The material’s hydrophobic properties prevent mold and bacterial growth, making it ideal for humid environments. Additionally, synthetic media can be electrostatically charged to enhance particle attraction, improving filtration without increasing airflow resistance. Its versatility, longevity, and performance consistency make it a preferred choice for modern filtration needs where reliability and efficiency are critical.
Multi-Layer Synthetic Air Filter Rolls for High Dust Holding Capacity
Multi-layer synthetic air filter rolls are designed to maximize dust-holding capacity while maintaining optimal airflow. These filters use a gradient density structure, with progressively finer layers that capture larger particles first while allowing smaller ones to be trapped deeper within the media. This design prevents premature clogging and extends filter life, reducing maintenance frequency. The synthetic fibers provide high tensile strength, resisting tears and deformation even under heavy particulate loads. Applications include commercial HVAC systems, industrial dust collectors, and automotive air intake filters, where high dust loads are common. The multi-layer approach ensures consistent performance over time, making these rolls cost-effective for high-demand environments that require both efficiency and longevity.
Synthetic vs Fiberglass Air Filter Media
Synthetic air filter media outperforms fiberglass in several key aspects, including durability, moisture resistance, and filtration efficiency. While fiberglass is cost-effective and provides decent filtration, it is fragile and prone to tearing, especially in high-velocity airflow systems. Synthetic media, on the other hand, is more robust, resistant to humidity, and can be engineered for higher dust-holding capacity. Fiberglass filters often require a supportive frame, whereas synthetic media maintains structural integrity independently. Additionally, synthetic filters can incorporate electrostatic enhancement for better particle capture without sacrificing airflow. However, fiberglass remains useful in high-temperature applications where certain synthetic materials may degrade. For most modern HVAC and automotive uses, synthetic media is the superior choice due to its balance of strength, efficiency, and longevity.
