A high-strength polyamide 610 multifilament has a sulfuric acid relative viscosity of 3.0 to 3.7 and a drying strength of more than 9.2 cN/dtex and within 11.0 cN/dtex, having a total fineness of 100 to 2,500 dtex and a single fiber fineness of 1.5 to 40 detex and a birefringence Δn of 50.0 x 10.sup.-3 or more.

Biofilm-enhanced textiles and methods of preparing same are disclosed. The biofilm-enhanced textiles include a textile; and a biofilm comprising one or more microorganisms and an extracellular material, the one or more microorganisms being engineered to express one or more proteins on a cell surface to adhere to the textile, and to express one or more genes that produce a response to changes within the textile or to an environment surrounding the textile.

A pre-saturated disposable disinfecting wipe may include a microfiber cloth. The microfiber cloth may include a low weight substrate having a first face and an opposed second face, and microfiber yarn attached to the low weight substrate in a plurality of parallel rows of stitches. The pre-saturated disposable disinfecting wipe further includes a disinfecting formulation saturated in the microfiber cloth. The pre-saturated disposable disinfecting wipe may have a single-touch two-minute wetness coverage of more than 100 in.sup.2. A method of manufacturing a pre-saturated disposable disinfecting wipe may include saturating, with a disinfecting formulation, a microfiber cloth.

One aspect of the invention provides a washable and dry-cleanable knit garment having a permanent pleat. The washable and dry-cleanable knit garment includes: a cotton-polyester blend knit fabric comprising at least 50% cotton; fusible interfacing fused to an interior surface of the cotton-polyester blend knit fabric to form a fabric-fusible assembly; and at least one permanent pleat formed in the fabric-fusible assembly. Another aspect of the invention provides a method of manufacturing a washable and dry-cleanable knit garment having a permanent pleat. The method includes: providing a cotton-polyester blend knit fabric comprising at least 50% cotton; applying fusible interfacing fused to an interior surface of the cotton-polyester blend knit fabric to form a fabric-fusible assembly; forming one or more pleats in the fabric-fusible assembly; and activating the fusible with a heat press.

Provided is a textile made of filament yarn comprising a polymer composition that is durable and reusable having permanent or near-permanent antiviral properties and that includes a polymer, a metal ion, preferably a zinc and/or copper ion, and an optional phosphorus compound, wherein fibers and/or fabric formed from the polymer composition demonstrate antiviral properties and wherein the polymer is hygroscopic. The present disclosure also describes methods of forming the polymer compositions and methods of preparing fibers from the polymer composition.

Acoustically effective molded part which is dimensionally stable after pressure and heat treatment, consisting of a mechanically solidified staple fiber nonwoven fabric formed from fibers, namely from matrix fibers, bicomponent hotmelt adhesive fibers and thermoplastic adhesive fibers, as well as comprising an outer layer and a middle layer, wherein flattenings formed by adhesive fibers are located on the outer layers of the molded part, there are no flattenings in the middle layer of the molded part, the outer layer has a flattening degree according to the test method mentioned in the description of 25% to 75%, the outer layer has a thickness of 15 μm to 40 μm and the molded part has a specific flow resistance in the range from 1000 to 3000 Pas/m.

The present disclosure relates to a multi-layered design for an article of apparel such as swimwear. In particular, at least one layer may include a stretch resistant matrix made of a thermoplastic polymer, a silicone or other similar material to provide additional support and modesty to certain areas of the apparel, such as the bust area. Further, a method of manufacturing the article of apparel is also disclosed. According to aspects described herein, the layers may be integrated using techniques to increase the overall integrity of the apparel.

A moisture-response deforming fabric includes 40 parts by weight to 70 parts by weight of an ordinary yarn and 30 parts by weight to 60 parts by weight of a moisture-response stretching nylon yarn. A water-vapour permeability index (imt) of the moisture-response deforming fabric is greater than or equal to 0.35 under a measurement of the validation FTTS-FP-161.

Aspects herein relate to a garment that comprises a first knit textile comprising a cell configuration having a knitted perimeter portion and a knitted central portion that is integrally knitted with and enclosed within the knitted perimeter portion. The knitted perimeter portion comprises a first percentage by weight of a first yarn type and a second yarn type. The knitted central portion comprises only the second yarn type. The knitted textile further comprises a second knit textile that is integrally knit with the first knit textile and comprises a plurality of linear knit portions. A first linear knit portion comprises a first percentage by weight of the first yarn type and a second linear knit portion comprises solely the second yarn type. The first linear knit portion of the plurality of linear portions is directly interlooped with a second leaner knit portion.

A nonwoven fabric. The nonwoven fabric can include a first surface and a second surface and a visually discernible pattern of three-dimensional features on one of the first or second surface. Each of the three-dimensional features can define a microzone comprising a first region and a second region. The first and second regions can have a difference in values for an intensive property, and wherein in at least one of the microzones the first region exhibits a Contact Angle of greater than 90 degrees, as measured by the Contact Angle Test Method detailed herein.