The present invention relates to an adhesive silicone patch to be applied to a wearable product. The adhesive silicone patch provides the function of assisting the musculoskeletal system and ligaments for each part of the human body, the function of preventing secondary damage, the function of supporting the injured part, and the function of promoting blood circulation. In addition, the adhesive silicone patch dramatically reduces the concentration of lactic acid generated during exercise. The present invention also relates to a wearable product provided with the adhesive silicone patch. The adhesive silicone patch is applied to the inner surface of a wearable product such as clothing and includes a first functional layer. The first functional layer includes a two-component liquid silicone rubber (LSR) and a silicone-based pressure-sensitive adhesive (PSA). The LSR is composed of a main component and a crosslinking agent. The PSA is included in an amount of 50 to 200 parts by weight with respect to 100 parts by weight of the LSR.

The present invention relates to antimicrobial materials comprising copper and zinc incorporated into or coated on a substrate material, wherein the substrate comprises a rubber component. The present invention also relates to methods of obtaining said antimicrobial materials.

A polymer latex composition for fibre binding includes: a) 50 to 98 wt.-% based on the total weight of latex particles in the composition of first latex particles having a volume average particle size of 80 to 1000 nm, wherein the first latex particles optionally bear functional groups and if functional groups are present they are selected from functional groups consisting of acid functional groups and salts, amides or anhydrides thereof, silane functional groups, and combinations thereof; b) 2 to 50 wt.-% based on the total weight of latex particles in the composition of second latex particles having a volume average particle size of 5 to 70 nm bearing epoxy functional groups, to the use of that composition for fibre binding, to a fibre structure including the dried residue of that composition and to a method for increasing the strength of a fibre structure.

An organic fine particle capable of adhering to a substrate under a state having a particle shape, wherein the organic fine particle, when adhered to a substrate, exhibits water-repellency on the substrate, and the organic fine particle is formed of a fluorine-free polymer. Also disclosed is an organic fine particle containing: (1) a hydrophobic monomer which has one ethylenically unsaturated double bond and at least one hydrocarbon group having 3-40 carbon atoms; or (2) a polymer which has a repeating unit formed from a (meth)acrylic monomer having a polydimethylsiloxane group. Also disclosed is a method for producing the organic fine particle and a water-repellent composition which is an aqueous dispersion of the organic fine particle. Also disclosed is a textile product and method for treating the same which includes applying a treatment liquid containing the water-repellent composition to the textile product.

The present invention relates to polymer latex composition for fibre binding comprising: a) 50 to 98 wt.-% based on the total weight of latex particles in the composition of first latex particles having a volume average particle size of 80 to 1000 nm, wherein the first latex particles optionally bear functional groups and if functional groups are present they are selected from functional groups consisting of acid functional groups and salts, amides or anhydrides thereof, silane functional groups, and combinations thereof; b) 2 to 50 wt.-% based on the total weight of latex particles in the composition of second latex particles having a volume average particle size of 5 to 70 nm bearing epoxy functional groups, to the use of that composition for fibre binding, to a fibre structure comprising the dried residue of that composition and to a method for increasing the strength of a fibre structure.

The present disclosure relates to a natural dyeing method using shouliang yam rhizome, and more particularly to a natural dyeing method using shouliang yam rhizome, which prevents the discoloration of a naturally dyed fabric, is harmless to the human body, and exhibits excellent color development, excellent antibacterial activity, excellent deodorization, and excellent dyeing fastness such as friction fastness and light fastness.

A softening agent composition including (1) a silicone polymer, (2) a water-repellent polymer, (3) an emulsifier, and (4) a liquid medium that is water or a mixture of water and an organic solvent. Also disclosed is a method for producing the softening agent composition which includes producing a water-repellent polymer by polymerizing, in the presence of the silicone polymer, a monomer that constitutes the water-repellent polymer. The water-repellent polymer may be at least one selected from the group consisting of fluorine-containing polymers and non-fluorine-containing polymers. Also disclosed is a method for treating a substrate with the softening agent composition and a substrate treated with the softening agent composition.

The present disclosure relates to a natural dyeing method using shouliang yam rhizome, and more particularly to a natural dyeing method using shouliang yam rhizome, which prevents the discoloration of a naturally dyed fabric, is harmless to the human body, and exhibits excellent color development, excellent antibacterial activity, excellent deodorization, and excellent dyeing fastness such as friction fastness and light fastness.

To provide a surface material comprising main surfaces which are excellent feeling in touch and hardly cause fiber dropouts, and to provide a method for producing the same. In a surface material comprising binder and a monolayer fabric, it was found that a surface material satisfying both of the following configurations is a surface material with main surfaces which are excellent feeling and hardly cause fiber dropouts a configuration that there is no layer of binder on both main surfaces in the fabric, and, a configuration that there are one or more layers of binder between both main surfaces in the fabric. In addition, a method of manufacturing a surface material comprising a step of applying the solvent and/or the dispersion medium to the one main surface, to which the binder liquid is applied, of a monolayer fabric, the binder liquid applied to the main surface can be pushed from the one main surface to the inner side of the monolayer fabric by a solvent and/or a dispersion medium so that the binder liquid does not exist on the one main surface. Therefore, a surface material satisfying the constitution of claim 1 can be manufactured.

Provided is an airbag base fabric in which combustibility due to both resin coating surface ignition and non-fabric surface ignition in the airbag base fabric is suppressed according to combustibility evaluation as defined in FMVSS 302 after environmental testing. The present invention pertains to a polyamide multifilament textile airbag base fabric and a method for manufacturing the same, the airbag base fabric being characterized by having a silicone film on at least one surface of the textile, the silicone film weight being 10 g/m.sup.2 to 100 g/m.sup.2 (inclusive), the cyclopentanone content being 0-250 ppm (inclusive) in relation to the textile weight, the greater shrinkage rate among the shrinkage rates in each of the warp and weft directions before and after heating for 60 minutes at 105 C. being 0-1.4% (inclusive), and the blade combing resistance after 400 hours in an environment of 85 C. and 95% relative humidity being 350 N or greater.