Method for obtaining nonwoven materials with antibacterial properties

FIELD: textile, paper.

SUBSTANCE: method involves material treatment with a solution containing nanostructured metal or oxide particles at a temperature of 20±5°C, and subsequent drying. The nonwoven material is subjected to ultrasonic pre-treatment to activate the surface and further processing by immersing or spraying a solution containing previously prepared nanoscale colloidal particles from metals or oxides at a concentration of 0.1-5% by material weight, followed by material drying at a temperature of 60 to 100°C to permanent weight.

EFFECT: invention allows to simplify the technology of preparation of the material with the required antibacterial characteristics, to increase strength and uniformity of nanoparticles fixation on the surface and in the material structure, which is especially necessary for development of membrane carriers sets for biological material transportation in veterinary laboratory diagnostics and epizootic monitoring, as dry stains applied to the carrier.

6 cl, 4 dwg, 1 tbl, 2 ex

 



 

Same patents:

FIELD: process engineering.

SUBSTANCE: invention relates to membrane technology, particularly, to production of antibacterial polymer membranes to be used in water and aqueous solution treatment in food and pharmaceutical industries, and medicine. Proposed method comprises making polymer solution, forming of polymer membrane and processing with antibacterial substance. Produced membrane is dried, rinsed with water and subjected to final drying. Said antibacterial substance represents composition containing the following components in wt %: 5-10 of poorly soluble or insoluble slats of silver, 2-25 of formic acid an 65-93 of water.

EFFECT: prolonged antibacterial properties.

9 ex

FIELD: textiles, paper.

SUBSTANCE: method of metallisation woven materials lies in melting of metal wires with electric influence, as well as in spraying of microparticles of molten metal to the plane of the material moving orthogonally to the direction of the spraying with the given speed of feeding and protected with the medium of spray distribution from the damaging effect of high temperatures. The explosive melting of the wire substance is carried out through high-voltage electric influence between the ends of the non-open wire delivered discretely to the metalliser in aqueous medium, and a cloud of ionised particles of evaporated metal is formed, and metallisation is performed by energy cumulation of thermal explosion W and electromagnetic focusing of motion trajectories of the ionised particles to the target rate of metallisation, and the rate of feeding Fn of the process material is regulated in time with a spacing frequency nsp of electric influence, and the volume Vw of the exploded wire is changed, as well as the spraying propagation medium, the voltage Uco and the spacing frequency nsp of electric influence formed by a bit relaxation circuit Lc-Ct, and the metallisation indices are set and controlled during metallisation according to the value of the scattering coefficient Ks of electromagnetic radiation, characterised by the formula: where: Uco is a voltage of electric influence exploding the wire; εm"ш" is dielectric capacitance of the fabric material and metal particles, respectively; α is lateral dimensions of the particles; W is energy released under electric explosion of the wire, of the given volume Vw; Zac is acoustic impedance of the discharge circuit forming the spacing frequency nsp of electric influence; ρmwf,λvap is density, specific electrical conductivity, heat of fusion and heat of vaporisation of the wire material in a given environment; Lc is the circuit inductance; Ct is capacity of tank of capacitors; T=tspTs⇔VwKl emf is the number of explosions of the wire in processing of area of fabric with volume Vfab necessary to ensure the given index of metallisation with guaranteed by experimentally proved dependence of metal amount introduced into the fabric on the volume of the exploded wire Vw taking into accountfor adjustment for the loss coefficient Kl emf at electromagnetic focusing of motion trajectories of the ionized particles; Ts is the sampling period of time of feeding the section of plane of metallised surface; d is thickness of the fabric; λ is wavelength of the electromagnetic radiation in a vacuum; and the value of the metallisation index Kp is set and controlled using a physical phenomenon of scattering of electromagnetic waves in the infrared range, and the voltage of electric influence Uco exploding wire with length of 40 mm and a diameter of 0.6 to 1 mm is adjusted from 2 to 4 kV with values of capacity of tank of capacitors Ct of 150 to 200 microfarad and values of the discharge circuit inductance Lc of 30 to 40 mcH, ensuring minimum loss of metal from 30% to 40% with an electromagnetic focusing of motion trajectories of the ionised particles.

EFFECT: technology is feasible in any media, including, liquids, the cloths have shielding properties, and antibacterial, antiviral, catalytic activity.

1 cl, 6 tbl, 6 dwg

FIELD: electricity.

SUBSTANCE: monofilament contains conducting material and binding agent. The fabric that dissipates static charge includes polymer monofilaments containing conducting material containing metal particles and binding agent, which is attached in the form of solid coating in longitudinal direction of the above monofilaments or solid film in longitudinal direction, which is applied to them. The above monofilaments have static charge dissipation properties.

EFFECT: invention provides creation of threads to be used in industrial fabrics, for which static charge dissipation is compulsory.

21 cl, 5 dwg

FIELD: textiles, paper.

SUBSTANCE: textile product at stage (a) is sealed with an aqueous printing composition, at stage (b) it is heat-treated on one or more stages, at stage (c) other metal is precipitated on the textile product of a flat shape. At that the aqueous composition contains from 10 to 90 wt % of at least one metal powder (a) selected from the group consisting of powdered zinc, nickel, copper, tin, cobalt, manganese, iron, magnesium, lead, chromium, bismuth, and mixtures of these metals and their alloys. The composition also contains from 1 to 20 wt % of binder (b) which is an aqueous dispersion of film-forming polymer, from 0.1 to 4 wt % nonionic emulsifier (c), and from 0 to 5 wt % modifier of rheological properties (d). The method is used in the manufacture of textile products heated. The resulting textile product is capable to partially conduct electricity and shield electromagnetic radiation.

EFFECT: proposed technology of production of textile products requires no special equipment, has flexibility and low costs intensity.

12 cl, 2 tbl, 1 ex

FIELD: textile, paper.

SUBSTANCE: fabric is placed into solution, which contains nanoparticles of carbon, and is exposed to ultrasound effect. Additionally also noble metal nanoparticles are added into the solution, and/or nanoparticles of precious or semi-precious minerals. During or after ultrasonic exposure, microwave exposure is provided. Additional laser radiation with pulses of various length and impulsion along full surface of cloth is also possible. Then fabric is dried.

EFFECT: improved consumer and operational properties of fabric, its appearance.

12 cl, 1 dwg, 4 ex

FIELD: textile fabrics, paper.

SUBSTANCE: invention is related to chemical technology of fibrous materials, in particular to biocide treatment of tanning semi-finished products. Method consists in application of aqueous composition onto material with 0.035-0.09 g/l of AB katamin and potassium iodide taken in the ratio of 10:1, and 0.03-0.06 g/l of nanosize silver particles preparation. Preparation is a water dispersion with concentration of Ag+ 0.15-1.5 wt %, nanoparticle size 5-20 nm, and maximum optical density in the area of waves length of 315-540 nm. Components are applied simultaneously or serially with interval of 5 minutes at 30 C and total duration of processing of 10 minutes. Composition is applied by spraying or impregnation at roller machine, or at the stage of the last washing of semi-finished product in drum with liquid coefficient that equals 3.

EFFECT: invention provides for expansion and improvement of biocide treatment action spectrum, and also reduction of applied preparation consumption.

4 cl, 1 tbl, 3 ex

FIELD: technological processes.

SUBSTANCE: invention is related to technology for production of metalised woven and nonwoven materials, and may be used for production of catalysts, and also for production of decorative and finishing materials. Method includes previous chemical activation of coated material surface, using as activator glyoxal acid and/or oxalic acid. Then chemical metallisation is carried out, which is realised from solution containing bluestone. Stabiliser used is tetraethylene glycol, and reducer - glyoxal. Sodium hydroxide is used in solution to maintain required acidity.

EFFECT: invention provides for production of metalised dispersed woven and nonwoven materials using simplified technology, with simultaneous cheapening and provision of production safety due to use of proposed ingredients and their certain ratio.

2 ex

FIELD: textile industry, paper industry.

SUBSTANCE: invention relates to the technology of metallised material production for shielding from electromagnetic radiation in a broad range. Metallised material ''Nanotex'' is made of synthetic monofilament thread with diameter of 30-50 micron, and a number of threads is 30-160 threads per cm and surface density is 10-50 g/m2. Material has orifices between beam threads and shoots, size of which ranges within 1d-9d, where d is thread's diameter. Metal pads with predetermined surface resistance can be distributed over the material by weave or woven methods. The invention ensures production of the material with stable performances having high shielding capacity from different types of radiation including high-frequency radiation ranged from 300 to 16000 MHz.

EFFECT: production of the material with stable performance having high shielding capacity from different types of radiation.

3 cl, 2 dwg, 1 tbl, 5 ex

The invention relates to a technology for metallic woven and nonwoven materials and can be used for the manufacture of protective clothing from magnetic radiation and static electricity, for the manufacture of decorative and finishing materials

FIELD: chemistry.

SUBSTANCE: invention relates to the technology of production of polymer fibres, in particular, polypropylene fibres, which can be applied as a reinforcing for cement, gypsum, concrete, etc. The fibre is obtained by moulding from a melt and further processing by ionising radiation. The fibre is 0.1-40 mm long, has a diameter of 5-170 mcm and the melt flow index higher than 500 g/10 min, measured in accordance with DIN EN ISO 1133.

EFFECT: application of the obtained fibres provides an increase of fire resistance of the concrete products.

5 cl, 1 tbl, 1 ex

FIELD: chemistry.

SUBSTANCE: invention relates to chemistry of polymers and deals with a method of obtaining hardly flammable polymer products based on polyethyleneterephthalate with biocidal properties, which can be applied in the textile industry, medicine, in products of a special purpose as well as in other fields of industry. The method of obtaining hardly flammable polymer products based on polyethyleneterephthalate with biocidal properties includes stretch forming of polyethyleneterephthalate-based polymer product in an adsorption-active liquid medium, containing modifying additives, and the product drying, with, at least, one modifying additive being a biocidal preparation and, at least, one modifying additive being a fire retardant, and one of the modifying additives is pentaerythritol.

EFFECT: reduction of the polymer material dropping with preservation of lower combustibility and biocidal activity.

8 cl

FIELD: chemistry.

SUBSTANCE: composition contains low-molecular siloxane caoutchouc, ethylsilicate-40, octaphenyltetraasaporphyrinatocobalt(II) or octaphenyltetrapyrazinoporphyrazinatocobalt(II).

EFFECT: increase of covering stability to abrasion and its water-resistance.

1 tbl

FIELD: textiles, paper.

SUBSTANCE: method comprises treatment of cloth at room temperature with a composition comprising, g/l: polyhexamethylene guanidine hydrochloride 15-25, copper acetate or zinc acetate 4-7, acetic acid 4-7, and water up to 1 liter and then the cloth is heat-treated at a temperature of 130-180°C for 1-10 minutes, while half-woollen cloth is made by interlacing of warp and weft yarns of wool and polyester fibers with filling ratio of cloth in the warp and weft equal to 0.9-1.3.

EFFECT: giving the fabric antiallergenic and bacteriostatic properties, while maintaining the antimicrobial activity after wet treatments.

1 dwg

FIELD: textiles, paper.

SUBSTANCE: composition contains the agent which represents diethylene-glycol ester 1,3-dimethyl-4,5-dihydroxyethyleneurea - 15-30 g/l, magnesium chloride - 1-3 g/l, the agent representing styrene-vinyl-acetate-acrylic copolymer - 30-75 g/l and water - up to 1 litre.

EFFECT: reduced loss of strength and domestic shrinkage of processed material, maintaining soft handle, simultaneous infusion of properties of low crease retention and resistance to shrinkage, increase in reliability of the equipment operation due to the absence of adhesion, reduction of energy consumption during treatment of the material.

1 tbl

FIELD: textiles, paper.

SUBSTANCE: method of metallisation woven materials lies in melting of metal wires with electric influence, as well as in spraying of microparticles of molten metal to the plane of the material moving orthogonally to the direction of the spraying with the given speed of feeding and protected with the medium of spray distribution from the damaging effect of high temperatures. The explosive melting of the wire substance is carried out through high-voltage electric influence between the ends of the non-open wire delivered discretely to the metalliser in aqueous medium, and a cloud of ionised particles of evaporated metal is formed, and metallisation is performed by energy cumulation of thermal explosion W and electromagnetic focusing of motion trajectories of the ionised particles to the target rate of metallisation, and the rate of feeding Fn of the process material is regulated in time with a spacing frequency nsp of electric influence, and the volume Vw of the exploded wire is changed, as well as the spraying propagation medium, the voltage Uco and the spacing frequency nsp of electric influence formed by a bit relaxation circuit Lc-Ct, and the metallisation indices are set and controlled during metallisation according to the value of the scattering coefficient Ks of electromagnetic radiation, characterised by the formula: where: Uco is a voltage of electric influence exploding the wire; εm"ш" is dielectric capacitance of the fabric material and metal particles, respectively; α is lateral dimensions of the particles; W is energy released under electric explosion of the wire, of the given volume Vw; Zac is acoustic impedance of the discharge circuit forming the spacing frequency nsp of electric influence; ρmwf,λvap is density, specific electrical conductivity, heat of fusion and heat of vaporisation of the wire material in a given environment; Lc is the circuit inductance; Ct is capacity of tank of capacitors; T=tspTs⇔VwKl emf is the number of explosions of the wire in processing of area of fabric with volume Vfab necessary to ensure the given index of metallisation with guaranteed by experimentally proved dependence of metal amount introduced into the fabric on the volume of the exploded wire Vw taking into accountfor adjustment for the loss coefficient Kl emf at electromagnetic focusing of motion trajectories of the ionized particles; Ts is the sampling period of time of feeding the section of plane of metallised surface; d is thickness of the fabric; λ is wavelength of the electromagnetic radiation in a vacuum; and the value of the metallisation index Kp is set and controlled using a physical phenomenon of scattering of electromagnetic waves in the infrared range, and the voltage of electric influence Uco exploding wire with length of 40 mm and a diameter of 0.6 to 1 mm is adjusted from 2 to 4 kV with values of capacity of tank of capacitors Ct of 150 to 200 microfarad and values of the discharge circuit inductance Lc of 30 to 40 mcH, ensuring minimum loss of metal from 30% to 40% with an electromagnetic focusing of motion trajectories of the ionised particles.

EFFECT: technology is feasible in any media, including, liquids, the cloths have shielding properties, and antibacterial, antiviral, catalytic activity.

1 cl, 6 tbl, 6 dwg

FIELD: textiles, paper.

SUBSTANCE: bicomponent fibers contain aliphatic polyester or a mixture of aliphatic polyesters, which form the first component, and polyolefin or a mixture of polyolefins, which form the second component. Polyolefin contains auxiliary material improving its biodegradation. Textile sheets include these bicomponent fibers and are comparable by mechanical properties to textile sheets based on polyolefin, while they are decomposed more efficiently under the action of microorganisms than the textile sheets based on polyolefin.

EFFECT: enhanced biodegradability, to textile sheets such as nonwoven materials comprising these fibers, which can be used in personal care products.

16 cl, 3 tbl, 2 ex

FIELD: textiles, paper.

SUBSTANCE: bicomponent fibers contain aliphatic polyester or a mixture of aliphatic polyesters, which form the first component, and polyolefin or a mixture of polyolefins, which form the second component. Polyolefin contains auxiliary material improving its biodegradation. Textile sheets include these bicomponent fibers and are comparable by mechanical properties to textile sheets based on polyolefin, while they are decomposed more efficiently under the action of microorganisms than the textile sheets based on polyolefin.

EFFECT: enhanced biodegradability, to textile sheets such as nonwoven materials comprising these fibers, which can be used in personal care products.

16 cl, 3 tbl, 2 ex

FIELD: chemistry.

SUBSTANCE: liquid low-molecular siloxane rubber-based composition for fire-resistant material also contains ethyl silicate-40 or tetraethoxy silane as a curing agent and a titanium-containing compound in form of alkoxytitanium borate, where the alkoxy groups are ethoxy, propoxy or butoxy groups.

EFFECT: composition having high stability and adhesion to synthetic fabrics, which increases fire-resistance and reduces hardness of material with a coating made from said composition.

1 tbl

FIELD: chemistry.

SUBSTANCE: invention relates to the technology of producing anti-contamination composite materials. The material contains a polymer fibre substrate on whose surface there is a layer of fine inorganic particles and a binding component formed via chemical bonding. Each of said fine inorganic particles is coated with a silane monomer with unsaturated bonds. Content of said binding component ranges from 0.1 wt % to 40 wt % of the amount of fine inorganic particles. The material can be in form of a fabric, filter, mosquito net, construction material and material for inside rooms.

EFFECT: material is dustproof and highly durable.

13 cl, 10 dwg, 7 tbl, 15 ex

FIELD: textiles, paper.

SUBSTANCE: method of surface treatment of footwear, handbags, gloves and other leather products or products made of artificial leather, includes the following stages: the possible closing of the surface or part of the products, which should not be treated, the possible timing of operation of the spraying unit, placing the treated products into the chamber, closing the said chamber and starting automatically or manually the following additional stages, actuation of the said spraying unit to form an aerosol of the impregnating means in the said chamber for applying the impregnating means to the surface of the products, actuation of the air pump, the fan or the corresponding means for removal of excess of the impregnating means from the said chamber, the retention of excess of the impregnating means in the filter, preferably in the filter containing activated carbon.

EFFECT: elimination of exposure with harmful substances in the atmosphere due to treatment of footwear in a closed chamber in the enterprise.

10 cl, 14 dwg

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