The present invention relates to a sheath-core conjugated fiber for a supporter of a water treatment separation membrane, the fiber being harmless to the human body without the elution of heavy metals and having excellent color transparency and strength, a supporter comprising the same for a water treatment separation membrane, a water treatment separation membrane comprising the same, and a filter module comprising the same.

The present invention relates to a multilayer protective mask having antimicrobial properties, said mask comprising a body portion comprising: at least a first and a second fabric layers having random fiber configuration; a middle layer comprising a nanofiber membrane; and a third and a fourth fabric layers. The first fabric layer is disposed between the third fabric layer and the nanofiber membrane, and the second fabric layer is disposed between the fourth fabric layer and the nanofiber membrane. The first, the second, the third, and the fourth fabric layers have incorporated therein a synergistic combination of at least two metal oxide powders, comprising a mixed oxidation state oxide of a first metal and a single oxidation state oxide of a second metal, said combination having synergistic antimicrobial properties.

The present invention relates to a multilayer protective mask having antimicrobial properties, said mask comprising a body portion comprising: at least a first and a second fabric layers having random fiber configuration; a middle layer comprising a nanofiber membrane; and a third and a fourth fabric layers. The first fabric layer is disposed between the third fabric layer and the nanofiber membrane, and the second fabric layer is disposed between the fourth fabric layer and the nanofiber membrane. The first, the second, the third, and the fourth fabric layers have incorporated therein a synergistic combination of at least two metal oxide powders, comprising a mixed oxidation state oxide of a first metal and a single oxidation state oxide of a second metal, said combination having synergistic antimicrobial properties.

A super-soft composite wiping non-woven fabric having a layered structure which contains two outer layers being melt-blown polyester fiber webs composed of melt-blown polyester fibers with a fiber length of 10 mm-50 mm and a fiber length-diameter ratio of 1100-8000; a middle fiber layer is mainly composed of water absorbent fibers; fiber interlacing and interpenetrating areas are arranged between one of the two outer layers and the middle fiber layer, as well as between another one of the two outer layers and the middle fiber layer.

A super-soft composite wiping non-woven fabric having a layered structure which contains two outer layers being melt-blown polyester fiber webs composed of melt-blown polyester fibers with a fiber length of 10 mm-50 mm and a fiber length-diameter ratio of 1100-8000; a middle fiber layer is mainly composed of water absorbent fibers; fiber interlacing and interpenetrating areas are arranged between one of the two outer layers and the middle fiber layer, as well as between another one of the two outer layers and the middle fiber layer.

The provided articles, assemblies, and methods use a non-woven fibrous web (50) having one or more layers (60) that are densified in situ to provide a layer that is densified relative to one or more adjacent layers, collectively within a unitary non-woven construction. The non-woven web (50) can be made from fibers having a composition and/or structure that resist shrinkage induced by polymer crystallization when subjected to high temperatures. Advantageously, the provided non-woven webs (50) can be molded to form a three-dimensional shaped article that displays dimensional stability.

Provided are recyclable liner, panel or components which contain a vertically lapped polymer material constructed from at least vertically lapped first polymer fibers, wherein the vertically lapped polymer material includes a first surface and a second surface; and optionally at least one sheet of a same polymer or a compatible polymer to the vertically lapped first polymer fibers adhered to at least one of the first surface and the second surface of the vertically lapped polymer material. At least one of the first surface and the second surface of the vertically lapped polymer material is molded to include one or more structural features that project from the first surface and/or the second surface so that the vertically lapped polymer material with the adhered sheet has a three dimensional configuration. Methods for manufacturing the recyclable liner, panel or components are also provided.

Provided are recyclable liner, panel or components which contain a vertically lapped polymer material constructed from at least vertically lapped first polymer fibers, wherein the vertically lapped polymer material includes a first surface and a second surface; and optionally at least one sheet of a same polymer or a compatible polymer to the vertically lapped first polymer fibers adhered to at least one of the first surface and the second surface of the vertically lapped polymer material. At least one of the first surface and the second surface of the vertically lapped polymer material is molded to include one or more structural features that project from the first surface and/or the second surface so that the vertically lapped polymer material with the adhered sheet has a three dimensional configuration. Methods for manufacturing the recyclable liner, panel or components are also provided.

A dry method for manufacturing a non-woven fabric from tanned leather scraps involves providing tanned leather scraps in the form of compact material, subjecting the tanned leather scraps to opening to tear the compact material into fiber, and subjecting the torn material to carding. Textile fibers are added during carding to obtain a web of mixed fibers, the textile fibers including wool fibers. The dry method further involves subjecting the web of mixed fibers to needling to obtain a felt. The web of mixed fibers is free of impregnating agents and includes a leather fiber component composed of tanned leather fibers having a diameter of between 4 ?m and 70 ?m and a length of between 4 mm and 20 mm. The leather fiber component is comprised in a weight percentage greater than or equal to 50% of a total weight of the fibers in the web of mixed fibers.

A dry method for manufacturing a non-woven fabric from tanned leather scraps involves providing tanned leather scraps in the form of compact material, subjecting the tanned leather scraps to opening to tear the compact material into fiber, and subjecting the torn material to carding. Textile fibers are added during carding to obtain a web of mixed fibers, the textile fibers including wool fibers. The dry method further involves subjecting the web of mixed fibers to needling to obtain a felt. The web of mixed fibers is free of impregnating agents and includes a leather fiber component composed of tanned leather fibers having a diameter of between 4 ?m and 70 ?m and a length of between 4 mm and 20 mm. The leather fiber component is comprised in a weight percentage greater than or equal to 50% of a total weight of the fibers in the web of mixed fibers.