The present invention relates to textile articles and clothing such as outdoor garments, indoor garments, and commercial protective wear exposed to contact mixtures of water and oil, swimwear and winter wear exposed to mixtures of water and air. At least part of these textile articles possess a surface provided with at least one of 1) a high surface area, 2) hierarchical pattern, 3) contact angles such that hydrophilic portion of a contact mixture possesses a high contact angle and the hydrophobic portion of a contact mixture possesses a low contact angle, and 4) hysteresis angle greater than 5 degrees. Hydrophobic/Hydrophilic contact mixtures of the present invention can be surfaces where water and or ice are present in combination with oil and or air. The textile articles of the present invention resist slippage on surfaces possessing hydrophobic/hydrophilic contact mixtures.

A structure has spaces that can accommodate at least two International Organization for Standardization compliant shipping containers. The structure has studs, joists, and rafters connected together above, besides, between, and in front of the spaces for the shipping containers. The structure provides for an attractive outdoor retail space with shading, allowing for signage, decorations, product display, ergonomics, and other retail design features. In an implementation, the structure is for a mobile retail space that is tailored for customizing and manufacture of the customized apparel, especially the laser finishing of products like jeans. The mobile retail space can be relocated to and deployed easily at various events, such as sports events and music festival venues.

A supporting garment article such as a brassiere comprises a layer of elastomer provided in a graduating manner such that the area density of the elastomer vanes across a first region of the garment article. Supporting garment articles of the present disclosure provide the support of a constructed bra while maintaining the comfort factor of an unconstructed bra such as a bralette. The present disclosure provides a superior medium support bra using graduated application of an elastomer such as silicone, bonding, extrusion and dry moulding techniques.

A supporting garment article such as a brassiere comprises a layer of elastomer provided in a graduating manner such that the area density of the elastomer vanes across a first region of the garment article. Supporting garment articles of the present disclosure provide the support of a constructed bra while maintaining the comfort factor of an unconstructed bra such as a bralette. The present disclosure provides a superior medium support bra using graduated application of an elastomer such as silicone, bonding, extrusion and dry moulding techniques.

A textile fabric having improved properties, variously including surface stability, abrasion resistance, resistance to edge fraying, moisture control, and resistance to fluid penetration is created by introducing a polymeric solution or a plurality of low-melting particles suspended in a liquid into the textile fabric while leaving a plurality of surface fibers exposed and maintaining a textile feel on the surface.

Disclosed is a fabric having a first side and a second side, that is provided at least on part of the first side with a pattern of protrusions, wherein the protrusions comprise an expanded heat-expanding material, namely a heat-expanding material that has been expanded by heating. A polymeric layer is provided to the woven fabric to coat at least part of the protrusions. Also disclosed is a process for the production of the fabric and a garment comprising the fabric.

Disclosed is a fabric having a first side and a second side, that is provided at least on part of the first side with a pattern of protrusions, wherein the protrusions comprise an expanded heat-expanding material, namely a heat-expanding material that has been expanded by heating. A polymeric layer is provided to the woven fabric to coat at least part of the protrusions. Also disclosed is a process for the production of the fabric and a garment comprising the fabric.

A structure has spaces that can accommodate at least two International Organization for Standardization compliant shipping containers. The structure has studs, joists, and rafters connected together above, besides, between, and in front of the spaces for the shipping containers. The structure provides for an attractive outdoor retail space with shading, allowing for signage, decorations, product display, ergonomics, and other retail design features. In an implementation, the structure is for a mobile retail space that is tailored for customizing and manufacture of the customized apparel, especially the laser finishing of products like jeans. The mobile retail space can be relocated to and deployed easily at various events, such as sports events and music festival venues.

A textile composite comprising a meltable layer, a heat reactive material comprising a polymer resin comprising an aqueous acrylic resin, expandable graphite, and at least one flame retardant additive and an additional layer disposed on the heat reactive material so that the heat reactive material is between the meltable layer and the additional layer. This multilayer textile composite is used in a lightweight protective garment protecting the wearer against burns caused by flames and heat. A heat reactive composition comprising a polymer resin comprising as aqueous acrylic resin, expandable graphite and at least one flame retardant additive. A method of forming or manufacturing this multilayer textile comprising the step of heating the laminate to a temperature sufficient to remove at least a portion of the water from the aqueous acrylic resin of the heat reactive composition.

A textile composite comprising a meltable layer, a heat reactive material comprising a polymer resin comprising an aqueous acrylic resin, expandable graphite, and at least one flame retardant additive and an additional layer disposed on the heat reactive material so that the heat reactive material is between the meltable layer and the additional layer. This multilayer textile composite is used in a lightweight protective garment protecting the wearer against burns caused by flames and heat. A heat reactive composition comprising a polymer resin comprising as aqueous acrylic resin, expandable graphite and at least one flame retardant additive. A method of forming or manufacturing this multilayer textile comprising the step of heating the laminate to a temperature sufficient to remove at least a portion of the water from the aqueous acrylic resin of the heat reactive composition.