The present invention provides, for example, a melt-blown nonwoven fabric with high strength, high stretchability, and high particle filtration efficiency. The present invention is, for example, a melt-blown nonwoven fabric including fibers. The fibers are formed from a resin composition that contains a poly(3-hydroxyalkanoate)-based resin. A melt mass-flow rate of the resin composition at 160 C. is 90 to 700 g/10 min, and/or a weight-average molecular weight of the resin composition is 120000 to 200000. An areal weight of the melt-blown nonwoven fabric is 20 to 80 g/m.sup.2. An average value of a fiber diameter of the fibers is 1.7 to 3.0 m. A coefficient of variation of the fiber diameter of the fibers is less than or equal to 0.36.

The present invention provides, for example, a melt-blown nonwoven fabric with high strength, high stretchability, and high particle filtration efficiency. The present invention is, for example, a melt-blown nonwoven fabric including fibers. The fibers are formed from a resin composition that contains a poly(3-hydroxyalkanoate)-based resin. A melt mass-flow rate of the resin composition at 160 C. is 90 to 700 g/10 min, and/or a weight-average molecular weight of the resin composition is 120000 to 200000. An areal weight of the melt-blown nonwoven fabric is 20 to 80 g/m.sup.2. An average value of a fiber diameter of the fibers is 1.7 to 3.0 m. A coefficient of variation of the fiber diameter of the fibers is less than or equal to 0.36.

The present application discloses a preparation method of SM non-woven fabrics for roof anti-slip, which belongs to the technical field of roofing materials, comprising preparing spunbond non-woven fabric raw materials, preparing spunbond non-woven fabrics, preparing meltblown non-woven fabric raw materials, preparing primary SM non-woven fabrics, and post-processing; the spunbond non-woven fabric raw materials are prepared by uniformly mixing polypropylene with a low melt flow index, polypropylene with a high melt flow index, sodium alginate, antioxidant 1010, zinc stearate, ultraviolet absorber UV-531, polyvinyl alcohol, reinforcing agent, adhesive agent, and nano titanium dioxide. The present application can avoid the problem that the SM non-woven fabrics cannot be fully bonded together and are easy to delaminate when being combined, can also solve the problem of fabric breakage during high-speed production, and can also improve the wear resistance, strength, and stiffness of SM non-woven fabrics. The prepared SM non-woven fabrics have low production costs, are easy to recycle, and have good environmental performances.

The present application discloses a preparation method of SM non-woven fabrics for roof anti-slip, which belongs to the technical field of roofing materials, comprising preparing spunbond non-woven fabric raw materials, preparing spunbond non-woven fabrics, preparing meltblown non-woven fabric raw materials, preparing primary SM non-woven fabrics, and post-processing; the spunbond non-woven fabric raw materials are prepared by uniformly mixing polypropylene with a low melt flow index, polypropylene with a high melt flow index, sodium alginate, antioxidant 1010, zinc stearate, ultraviolet absorber UV-531, polyvinyl alcohol, reinforcing agent, adhesive agent, and nano titanium dioxide. The present application can avoid the problem that the SM non-woven fabrics cannot be fully bonded together and are easy to delaminate when being combined, can also solve the problem of fabric breakage during high-speed production, and can also improve the wear resistance, strength, and stiffness of SM non-woven fabrics. The prepared SM non-woven fabrics have low production costs, are easy to recycle, and have good environmental performances.

A process for manufacturing a water soluble product including the steps of: providing a water soluble fibrous first ply; providing a water soluble fibrous second ply formed on a surface other than the first ply, wherein the second ply is separate from the first ply; superposing the first ply and the second ply; and joining a first portion of the first ply to a second portion of the second ply to form the water soluble product.

A process for manufacturing a water soluble product including the steps of: providing a water soluble fibrous first ply; providing a water soluble fibrous second ply formed on a surface other than the first ply, wherein the second ply is separate from the first ply; superposing the first ply and the second ply; and joining a first portion of the first ply to a second portion of the second ply to form the water soluble product.

The present invention relates to a method for manufacturing a filter edge band non-woven fabric, and more specifically, to a method for manufacturing an environmentally-friendly filter edge band non-woven that replaces an environmentally harmful filter edge band treated with a chemical binder resin.

The present invention relates to a method for manufacturing a filter edge band non-woven fabric, and more specifically, to a method for manufacturing an environmentally-friendly filter edge band non-woven that replaces an environmentally harmful filter edge band treated with a chemical binder resin.

Provided are: a resin fiber sheet and a prepreg which use a laminated sheet as a raw material and which achieve excellent heat resistance, dielectric constant, dielectric loss tangent and dimensional stability (little warping); and a method for producing a prepreg using the resin fiber sheet. In one embodiment of the present invention, provided is a resin fiber sheet constituted from a poly(phenylene ether) composition fiber. The poly(phenylene ether) composition fiber contains more than 0 mass % and not more than 95 mass % of a poly(phenylene ether) and a total of not less than 5 mass % and less than 100 mass % of a liquid crystal polyester and/or a syndiotactic polystyrene, and has a single fiber diameter of 1-50 m.

Provided are: a resin fiber sheet and a prepreg which use a laminated sheet as a raw material and which achieve excellent heat resistance, dielectric constant, dielectric loss tangent and dimensional stability (little warping); and a method for producing a prepreg using the resin fiber sheet. In one embodiment of the present invention, provided is a resin fiber sheet constituted from a poly(phenylene ether) composition fiber. The poly(phenylene ether) composition fiber contains more than 0 mass % and not more than 95 mass % of a poly(phenylene ether) and a total of not less than 5 mass % and less than 100 mass % of a liquid crystal polyester and/or a syndiotactic polystyrene, and has a single fiber diameter of 1-50 m.