The emergence of clean workshops has greatly improved the quality of products in many industries, and has gradually begun to meet people’s daily needs. Clean workshops have also become indispensable infrastructure in some industries. But how to achieve the high filtration requirements of clean rooms? H13 grade high-efficiency filter material has the performance characteristics of high filtration efficiency, hydrophobicity and breathability. It can filter out particulate impurities in the clean room and meet the purification requirements of clean room filtration.
With the rapid development of modern health industry and science and technology, the application of clean technology in clean environment is becoming more and more extensive, which has a great impact on clean environment. The cleanliness requirements of clean rooms are also higher. The independently developed PTFE microporous membrane and two layers of imported non-woven fabric are combined into a H13 grade high-efficiency filter material, which has low wind resistance and low energy consumption. It is widely used in clean room filtration, photovoltaic, electronics, LED display and other industries.
The H13-level high-efficiency filtration material obtained by thermally compounding the self-developed high-efficiency PTFE microporous film and imported non-woven fabric has a reliable filtration grade of H13-U16. It has low wind resistance and low energy consumption, and can be widely used in many fields such as clean room filtration, frame filter (FFU), electrical chips, and LED displays.
Compared with glass fiber and electret filter materials, PTFE filter material can achieve a good balance between wind resistance and interception rate. It has ULPA, Different levels such as HEPA and sub-high efficiency filtration can meet the needs of different customers for filtration precision. The material is resistant to strong acids and alkalis and has good chemical resistance. The product itself will not degrade in performance due to cleaning, can be reused, and has a high utilization rate of resources.
H13 high-efficiency filter material can be used for a long time in the range of -200℃-250℃. In its molecular structure, the carbon atom is surrounded by four fluorine atoms. Since the covalent radius of the fluorine atom (0.064nm) is larger than the radius of the hydrogen atom (0.028nm), the fluorine atoms can be arranged to surround the carbon chain, and Because fluorine atoms repel each other, the entire macromolecular chain does not have a zigzag shape like a hydrocarbon molecular chain. If you are interested, please enter the store for consultation.