A functional substance adsorption device for fibers including: a casing having a space formed therein and an opening and closing door located on the front surface thereof; a drum rotatably disposed inside the casing and having a space formed therein to put the fibers therein and a plurality of fine through holes formed thereon; a driving part disposed on one side of the casing to rotate the drum; and a fine particle supply part comprising a fine particle supply hose communicating with the outer periphery of the casing, a vaporization tank connected to one side of the fine particle supply hose, a pneumatic ultrasound generator disposed inside the vaporization tank to vaporize an antimicrobial agent, and an air compressor for supplying pneumatic pressure to the pneumatic ultrasound generator.

A functional substance adsorption device for fibers including: a casing having a space formed therein and an opening and closing door located on the front surface thereof; a drum rotatably disposed inside the casing and having a space formed therein to put the fibers therein and a plurality of fine through holes formed thereon; a driving part disposed on one side of the casing to rotate the drum; and a fine particle supply part comprising a fine particle supply hose communicating with the outer periphery of the casing, a vaporization tank connected to one side of the fine particle supply hose, a pneumatic ultrasound generator disposed inside the vaporization tank to vaporize an antimicrobial agent, and an air compressor for supplying pneumatic pressure to the pneumatic ultrasound generator.

A method is provided for coating a fibrous web, in particular a fibrous web comprising nanocellulose fibres. The method includes steps of applying a coating agent to a textured surface region of a textured substrate, applying a fibre furnish or a wet fibrous web onto the coated textured surface region of the textured substrate, optionally dewatering to provide a wet fibrous web, and drying said wet fibrous web such that at least a portion of said coating agent is transferred to said fibrous web. The method provides a coated fibrous web with improved barrier properties.

A method is provided for coating a fibrous web, in particular a fibrous web comprising nanocellulose fibres. The method includes steps of applying a coating agent to a textured surface region of a textured substrate, applying a fibre furnish or a wet fibrous web onto the coated textured surface region of the textured substrate, optionally dewatering to provide a wet fibrous web, and drying said wet fibrous web such that at least a portion of said coating agent is transferred to said fibrous web. The method provides a coated fibrous web with improved barrier properties.

This invention provides a water-based elastomeric composition free from aromatics or similar solvents comprising: an elastomer, a thickener, titanium dioxide, an antioxidant, a fungicide, water and optionally a coloring agent. The composition further comprises a corrosion inhibitor and may be impregnated to a textile material, preferably a fiber glass textile.

This invention provides a water-based elastomeric composition free from aromatics or similar solvents comprising: an elastomer, a thickener, titanium dioxide, an antioxidant, a fungicide, water and optionally a coloring agent. The composition further comprises a corrosion inhibitor and may be impregnated to a textile material, preferably a fiber glass textile.

A carbon fiber bundle forming method, wherein the at least one carbon fiber bundle can be evenly heated since it is heated with microwave in the first and second microwave steps. Besides, the at least one carbon fiber bundle is treated in the laser step, laser can reach into the interior of the at least one carbon fiber bundle to enable the carbonization and graphitization to take place more evenly, then the carbon fiber bundle is treated in the subsequent roughening treatment step, the resin forming step and the semi-cure forming step, so that the interior of the at least one carbon fiber bundle can be heated evenly, which allows the at least one carbon fiber bundle to be carbonized evenly.

Method for designing a corrugated roofing sheet made of natural fibers, impregnated with bitumen including a uniform pattern of mutually parallel alternating corrugations borne by a mid-plane, the corrugations defining rounded crests each separated from the next by a rounded trough, the crests and trough being connected by alternately inclined portions, the transverse offset between two successive crests being equal to the transverse offset between two successive troughs and defining the pitch P of the corrugations, the sheet having a thickness E of material substantially constant over its extent, and a height H being twice the distance between the mid-plane and the exterior surface of a crest or twice the distance between the mid-plane and the exterior surface of a trough, these two distances being identical. The height, thickness and pitch values are determined by Fi<H.sup.3/(8?E?(H+P))<Fs, where Fi=25 mm and Fs=35 mm.

Method for designing a corrugated roofing sheet made of natural fibers, impregnated with bitumen including a uniform pattern of mutually parallel alternating corrugations borne by a mid-plane, the corrugations defining rounded crests each separated from the next by a rounded trough, the crests and trough being connected by alternately inclined portions, the transverse offset between two successive crests being equal to the transverse offset between two successive troughs and defining the pitch P of the corrugations, the sheet having a thickness E of material substantially constant over its extent, and a height H being twice the distance between the mid-plane and the exterior surface of a crest or twice the distance between the mid-plane and the exterior surface of a trough, these two distances being identical. The height, thickness and pitch values are determined by Fi<H.sup.3/(8?E?(H+P))<Fs, where Fi=25 mm and Fs=35 mm.

The application relates to a process for producing fibrous material with antimicrobial properties, wherein in the first step coniferous resin acid composition is emulsified into aqueous solution with emulsifier and wetting agent, and in the second step thus formed emulsion is transferred into fibrous material by impregnation. Further, the application relates to an aqueous antimicrobial composition for use as a water-soluble concentrate in the treatment of fibrous materials, and to a fibrous material with antimicrobial properties, and to its use in e.g. fabrics, fur, leather, clothes, canvas, tissues, plastics, webs, accessories, packaging materials, wallpapers, food-related products, household products, footwear, construction materials, insulating materials and medical products.