TH9675B - Non-woven material that blocks particles better. - Google Patents

Abstract

What is revealed is Manufacturing methods of non-woven materials With resistance to insertion through By better particles The method includes a procedure for heating at least one non-woven sheet. Sheet containing Meltblown fibers of polymers are thermally softened at temperatures where all the energy At the peak absorbed by the non-woven sheet of Meltblone fibers higher than that absorbed by Melt blown nonwoven sheet at room temperature at least approximately 250 percent; Tension is applied to tie the heat-treated non-woven sheets. Until making at least part of Each melt blown fiber There is a section whose diameter is smaller than the diameter of the address. Close together like no other things And cooling the non-woven fiber sheet on the neck Also disclosed is a non-woven material consisting of a flexible polymer meltblown sheet. With at least one sheet of heat The fiber sheet contains at least part of the melt blown fiber. Each strand whose diameter is larger than the center diameter of the adjacent part so that it is not separated so that the fiber plates have been adjusted to have increased resistance to particle penetration. This non-woven material It can be a component of a multilayer material. With resistance to penetration of Particles at desirable levels

Claims (9)

1.How to produce non-woven materials Methods include: Heating of non-woven fiber sheets. Containing The polymer methylblone fibers are thermally softened to the temperature at the total energy peak at Is absorbed by the fiber sheet higher than the amount absorbed By the fiber disc at room temperature At least about 250 percent of the tensile strength to the non-woven sheet. That has been heated until At least part of each meltblown fiber With a section of diameter Of the fibers are classified as smaller than the diameter of the adjacent parts without any obstruction, and the cooling of the non-woven sheets on the net 2. Method of claim 1 in which the softened polymer meltblown fibers Get by heat Contains polymers to choose from from a group containing polyolefins, polyesters and polyamides. 3. Method of claim 2 that the polyolefin can be chosen from among the groups comprising One more substance than polyethylene, polypropylene, polybutene, ethylene copolymer, propylene copo. Lemur And butene copolymer 4. Method of claim 3 where the softened polymer meltblown fibers Can be thermally composed of polyolefin meltblown fibers And non-woven fiber sheet. Such fibers Get hot The temperature ranges from above the alpha change of the polymer to about 10% below the melting point of the liquid part. 5. Method of Claim No. 3 in which the softened polymer meltblown fibers Get by heat Contains polypropylene melt blown fibers And non-woven fiber sheet Of such fibers Has been heated to temperature In the range from about 105 to about 145 degrees Celsius. 6. Method of Claim 5: Melt Blown Non-woven Fiber Sheet Of polypropylene Has been heated to temperature In the range from about 110 to about 140 degrees Celsius. 7. Method of Claim 5: Melt Blown Non-woven Fiber Sheet Of polypropylene Get heat temperature In the range from about 120 to about 125 degrees Celsius. 8. Method of claim 1 where the tensile force is sufficient to tie the non-woven fiber sheet. Until the width that has been tied Lower than the width of the non-woven fiber sheet before Apply at least about 10 percent of the tension. 9. Method of claim 8 where the tensile force is sufficient to tie the non-woven sheet. Until the width that has been tied Lower than the width of the non-woven fiber sheet First, the tension is applied from approximately 15 to about 50 percent 1 0. The method of claiming that 1 of which the fiber sheet is non-woven Get hot from Infrared radiation, steam cans, microwaves, supersonic energy, flames, hot gas and hot liquids 1 1. Non-woven material consisting of fibrous sheets of inelastic melts of polymers. Flexibility by heating at least one sheet. The sheets are then heated and then welded until at least part of each meltblown fiber has a section at the fiber diameter. Classified as smaller than the diameter of the adjacent parts without obstruction. In a way that makes The penetration of particles was lower than that of the same Meltblone nonwoven, but not At least approximately 10 percent of the process was obtained. 1. 2. Non-woven material of claim 11, where the particle penetration was approximately 50 percent lower for particle diameter. On average, 0.1 micron larger 1 3. Non-woven material of claim 11, where particle penetration was approximately 40 percent lower for particles with a diameter by Average larger than 0.1 micron 1 4. Non-woven material of claim 11, where particle penetration was approximately 5 percent lower for particle diameter. On average, 1.5 microns larger 1 5. Non-woven material of claim 11 where the meltblown fibers include ultra-fine meltblown fibers 1 6. Non-woven material of claim 15, which at least About 50 percent of the meltblown fiber. Ultra-fine, with an average diameter of less than 5 microns, as found from the results of analytical analysis 1 7. Nonwoven material of claim 11, in which the melts are not flexible of Softening polymers It consists of polymers of choice from the group consisting of polyolefin, polyester and polyamides. 1 8. Non-woven material of claim 17, which Polyolefins can be selected from the groups that Contains one or more substances from polyethylene, polypropylene, polybutene, ethylene copolymer, propylene polymer. Tor And butene copolymer 1. 9. Non-woven material of claim 11, in which the non-woven sheet of the non-elastic Meltblone fiber of the thermally malleable polymer consists of additional parts that include To One substrate or more That can be chosen from a group that includes Textile fibers, wood pulp fibers, particle materials and special absorbent materials 2 0. Non-woven materials of claim 11, in which the non-woven fibers have a standard weight. From approx. 6 to approx. 400 g / sq m. 2 1. Multi-layer material consisting of non-woven material. As defined in claim 11, at least one class And at least one layer of other material. 2. 2. Non-woven material of claim 21 where other material classes can be selected from the group consisting of woven fabrics, knitted fabrics, bonded fibers and carding. Continuous spunbond fiber sheets Melt Blown Fiber Sheet 2 3. The multilayer material of claim 21 that contains at least one other layer of non-woven material as defined in claim 11 is arranged in such a way that the angle of the arrangement. General character of Fibers between each material In the range from approximately 0 to about 90 degrees 2 4. Non-woven materials containing. Melt blown fiber sheet is not the elasticity of the soft polymer. Can by heating at least one sheet In which at least part of each meltblown fiber is part of the fiber diameter. Classified as smaller than diameter Of parts that are close to each other with no other obstacles Until the penetration of particles is reduced Than the same non-woven sheet that the Melt Blown fiber Not showing change The diameter of the fibers in the same design is at least approximately 10%. 2 5. Non-woven material of claim 24, where the particle penetration is approximately 50% lower for particles with an average diameter of approximately 0.1 microns. Non-woven of claim 24, whose particle penetration is approximately 40 percent lower for particle diameter. On average, 0.1 microns larger. 2. 7. Non-woven material of claim 24, whose particle penetration was approximately 5 percent lower for particles with an average diameter greater than approximately 1.5 microns. Holds the 24th right, which includes the fibers Super Fine Melt Blown 2 9. Non-woven material of claim 28, which is at least approximately 50 percent of the ultra-fine meltblown fibers. The average diameter was less than 5 microns, as found from the analytical figure 3 0. Nonwoven material of claim 24 where the polyethylene meltblown fibers were not flexible. The thermally flexible copolymer is composed of polymers selected from the group consisting of polyolefins, polyesters and polyamides. 3 1. Non-woven material of Claim 30 that the polyolefin Choose from a group containing one or more substances from Polyethylene, polypropylene, polybutene, ethylene copolymer, propylene copolymer And butene copolymer 3. 2. Non-woven material of claim 24, which the non-woven sheet of Meltblone fiber Inelasticity of thermally malleable polymers It consists of additional parts that include materials. One or more substrates selected from a group consisting of textile fibers, fibers, wood pulp, particle materials, and special absorbent materials. 3 3. Non-woven material of claim 24, in which the non-woven fiber sheet. With standard weight From about 6 to about 400 grams per square meter.