High-efficiency and low-resistance nanofiber air filter material for masks and preparation method thereof
An air filter material and nanofiber technology, which is applied in the field of high-efficiency and low-resistance nanofiber air filter material for masks and its preparation, can solve the problems of low air resistance and high filtration efficiency, and achieve precise control of bulk density, simple process and good quality. The effect of fiber structure controllability
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Embodiment 1
[0052] A preparation method of high-efficiency and low-resistance nanofiber air filter material for masks, the specific steps are:
[0053] Step 1: Place two parts of polyvinylidene fluoride powder in a vacuum oven at 80° C. for 3 hours to vacuum dry.
[0054] Step 2: Dissolve one part of the dried polyvinylidene fluoride powder in N,N-dimethylformamide, and then place it on a magnetic stirrer to stir for 10 hours to form a homogeneous solution. The mass fraction of the solution is 25%, as the spinning solution of the nanofiber layer with uniform cylindrical shape of the nano single fiber; at the same time, another dry polyvinylidene fluoride powder is dissolved in N,N-dimethylformamide , and continuously stirred for 10 hours with a magnetic stirring device to form a homogeneous solution with a mass fraction of 20%, which is used as a spinning solution for a nanofiber layer with a beaded structure as a single fiber.
[0055] The third step: the spinning device is as shown in ...
Embodiment 2
[0058] A preparation method of high-efficiency and low-resistance nanofiber air filter material for masks, the specific steps are:
[0059] Step 1: Place two parts of polybutylene terephthalate particles in a vacuum oven at 80° C. for 3 hours to vacuum dry.
[0060] The second step: dissolve one part of the dried polybutylene terephthalate particles in acetone, then place it on a magnetic stirrer and stir for 10 hours to form a homogeneous solution. The mass fraction of the homogeneous solution 30%, as the spinning solution of nanofiber layer with uniform cylindrical shape of nano single fiber; meanwhile, another part of dry polybutylene terephthalate particles was dissolved in acetone and continuously stirred with magnetic stirring device for 10 Hours, a homogeneous solution was formed, the mass fraction of the homogeneous solution was 23%, as a spinning solution for a nanofiber layer with a single fiber having a beaded structure.
[0061] The third step: the spinning device...
Embodiment 3
[0064] A high-efficiency and low-resistance nanofiber air filter material for a mask and a preparation method thereof, the specific steps are:
[0065] Step 1: Place two parts of polyethylene terephthalate particles in a vacuum oven at 80° C. for 3 hours to vacuum dry.
[0066] The second step: dissolve one part of the dried polyethylene terephthalate particles in formic acid, then place it on a magnetic stirrer and stir for 10 hours to form a homogeneous solution. The mass fraction of the homogeneous solution 6% as the spinning solution of the nanofiber layer with uniform cylindrical morphology of nanofibers; meanwhile, another part of dry polyethylene terephthalate particles was dissolved in formic acid and stirred continuously for 10 Hours, a homogeneous solution is formed, the mass fraction of the homogeneous solution is 20%, as a spinning solution for a nanofiber layer with a single fiber having a beaded structure.
[0067] The third step: the spinning device is as shown...
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