The present invention relates to aqueous silane emulsions based on specific hydrolysable silanes anionic and non-ionic surfactants, a textile comprising a coating obtainable by impregnating the textile with the aqueous silane emulsion according to the present invention and the use of the aqueous silane emulsion according to the present invention for treating textiles. Moreover, the invention also encompasses a method of impregnating a textile with the aqueous silane emulsion according to the present invention as obtained via dilution from a concentrated system.

The present invention relates to aqueous silane emulsions based on specific hydrolysable silanes anionic and non-ionic surfactants, a textile comprising a coating obtainable by impregnating the textile with the aqueous silane emulsion according to the present invention and the use of the aqueous silane emulsion according to the present invention for treating textiles. Moreover, the invention also encompasses a method of impregnating a textile with the aqueous silane emulsion according to the present invention as obtained via dilution from a concentrated system.

A head cover that can be worn by health care professionals is provided. The head cover includes an anterior portion with a height h, a posterior portion with a height h.sub.2, at least one side portion or panel which may be shaped and sized so as to connect the anterior portion of the head cover and the posterior portion of the head cover, and where the at least one side portion has a contoured section t that forms all or a portion of a bottom edge of the side portion and that is shaped and sized so as to cover the ears, scalp, and sideburns of a user as required by AORN guidelines while also remaining clear of a user's eyes and field of vision.

The present invention relates to compositions comprising at least one cationic polyelectrolyte, at least one anionic compound and at least one non-ionic surfactant and to the use thereof for finishing fibres and textiles.

The present invention relates to compositions comprising at least one cationic polyelectrolyte, at least one anionic compound and at least one non-ionic surfactant and their use for finishing textiles.

The present invention relates to compositions comprising at least one cationic polyelectrolyte, at least one anionic compound and at least one non-ionic surfactant and their use for finishing textiles.

A head cover that can be worn by health care professionals is provided. The head cover includes an anterior portion with a height h, a posterior portion with a height h.sub.2, at least one side portion or panel which may be shaped and sized so as to connect the anterior portion of the head cover and the posterior portion of the head cover, and where the at least one side portion has a contoured section t that forms all or a portion of a bottom edge of the side portion and that is shaped and sized so as to cover the ears, scalp, and sideburns of a user as required by AORN guidelines while also remaining clear of a user's eyes and field of vision.

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.

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.