Preparation method of high-molecular-weight polyethylene microporous membrane
A technology of polyethylene microporous membrane and high molecular weight, which is applied in the field of membrane materials, can solve the problems of increasing difficulty in the microstructure of microporous membranes, and achieve the effects of small pore size, stable performance and high porosity
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Embodiment 1
[0026] In a stainless steel reactor, under the protection of nitrogen, 10% by weight of high molecular weight polyethylene (ethylene and 1-butene copolymer with a molecular weight of 1.5 million, the weight percentage of 1-butene in the copolymer is 3.1 %) and 90% liquid paraffin at a temperature of 180°C for 12 hours, and a gel-like homogeneous system was obtained after cooling. Cut the gel-like homogeneous system into small pieces and put them between stainless steel plates, press them into a film on a tablet press at 180°C, after cooling, extract the diluent with ethanol; dry in a vacuum oven at 60°C 12h. The dried microporous film is biaxially stretched in a constant temperature box equipped with an adjustable temperature range, first stretched 3 times along one direction, and then stretched 3 times along the other direction to obtain high molecular weight polyethylene Microporous membrane with an average pore size of 1.3 microns, a porosity of 55%, and a pure water flux ...
Embodiment 2
[0028] In a stainless steel reactor, under the protection of nitrogen, 10% by weight of high molecular weight polyethylene (ethylene and 1-butene copolymer, the weight percentage of 1-butene in the copolymer is 2.6 %) and 90% liquid paraffin at a temperature of 180°C for 12 hours, and a gel-like homogeneous system was obtained after cooling. Cut the gel-like homogeneous system into small pieces and put them between stainless steel plates, press them into a film on a tablet press at 180°C, after cooling, extract the diluent with ethanol; dry in a vacuum oven at 60°C 12h. The dried microporous film is biaxially stretched in a temperature-adjustable thermostat, first stretched 3 times along one direction, and then stretched 3 times along the other direction to obtain a high molecular weight polyethylene microporous membrane. Porous membrane with an average pore size of 1.4 microns, a porosity of 62%, and a pure water flux of 677L / m 2 .h.
Embodiment 3
[0030] In a stainless steel reactor, 10% by weight of ultra-high molecular weight polyethylene (ethylene and 1-butene copolymer, the weight percentage of 1-butene in the copolymer is 6 million under nitrogen protection. 1.6%) and 90% liquid paraffin were dissolved at 180°C for 12 hours, and a gel-like homogeneous system was obtained after cooling. Cut the gel-like homogeneous system into small pieces and put them between stainless steel plates, press them into a film on a tablet press at 180°C, after cooling, extract the diluent with ethanol; dry in a vacuum oven at 60°C 12h. The dried microporous membrane is biaxially stretched in a constant temperature box equipped with an adjustable temperature range, first stretched 3 times along one direction, and then stretched 3 times along the other direction to obtain an ultra-high molecular weight polymer. Ethylene microporous membrane with an average pore size of 0.98 microns, a porosity of 46%, and a pure water flux of 476L / m 2 ....
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