PTFE microporous membrane is a polymer compound made of tetrafluoroethylene. It has excellent chemical stability and corrosion resistance. It is one of the materials with good corrosion resistance. In addition to molten alkali metals, trifluoroethylene Except for chlorine, chlorine pentafluoride and liquid fluoride, it is resistant to all other chemicals and is widely used in various occasions that require resistance to acids, alkalis and organic solvents.
It has sealing properties, high lubrication and non-stickiness, electrical insulation and good anti-aging ability, and excellent temperature resistance (can work for a long time at temperatures from plus 250°C to minus 180°C). The operating temperature is -190~250°C, allowed Quick cooling and quick heating, or alternating hot and cold operation.
It is a company located in Suzhou, a national high-tech industrial base, a national historical, cultural and scenic tourist city, and one of the important central cities in the Yangtze River Delta.
Our company is engaged in technology development, transfer, consulting, and services in the field of new materials; R&D, production, sales, and customization; and provider of high-efficiency separation and filter material design solutions.
The PTFE microporous membrane produced by the manufacturer uses imported raw materials, has a full set of advanced production equipment, an advanced clean room and an independent composite slitting workshop, ensuring the production quality of the PTFE microporous membrane; Production and testing instruments imported from the United States are used to test the quality of the PTFE membrane, and it has also passed international SGS testing and certification, as well as ISI testing and certification.
Can be based on user requirements.
The key to the technology is the optimized combination of speed ratio, pressure ratio, operating temperature and other parameters. According to the ratio and pore-forming medium, the air permeability, thickness and void ratio can be adjusted online to meet your different requirements. .
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