Medical multi-functional protective clothing developed using ptfe medical protective filter material has durable waterproof, water-repellent, antibacterial, antistatic, flame retardant, moisture permeable and other physical and mechanical properties. It is effective against blood, viruses, and bacteria under natural conditions and It has good barrier properties under pressure conditions.
Medical protective clothing is a broad concept, including various types of clothing worn by medical staff in medical environments, such as daily work clothes, surgical gowns, isolation gowns, and protective clothing.
Depending on the application environment and functions, medical protective clothing has different standard levels for liquid and bacterial penetration, and the materials used are also different.
However, according to the basic functions, they can be roughly divided into two categories: reusable and disposable (disposable).
The English name of polytetrafluoroethylene is ptfe.
The surface of ptfe medical protective filter material is composed of 100~200 nanofibers staggered into holes. After the fiber diameter is reduced to the nanometer level, the surface area increases, the pore size becomes smaller, and the pore volume increases, which can effectively block PM2.5.
It also has a fibrillar microporous structure with a porosity of more than 88%, 1.4 billion micropores per square centimeter, and a pore size range of 0.1μm-0.5μm. This film is laminated on various fabrics and substrates using a special process. material, it can become a new type of filter material.
It is a manufacturer specializing in the production of membrane materials and various membrane-coated filter materials. Our ptfe medical protective filter materials are all imported raw materials, with a full set of domestic advanced production equipment, using advanced production technology, and the products have passed ISO9001 quality Management system certification, testing standards strictly follow EU standard EN1822, and membrane products are tested using the MPPS method.
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