Abstract: The disclosure provides blowable insulation or filling material, and apparatus and methods for making same. The blowable insulation or filling material includes a plurality of discrete elongate floccules each formed of a plurality of fibers. The floccules include a relatively open enlarged medial portion. The floccules also include relatively condensed twisted tail portions extending from opposing ends of the medial portion. The floccules can be utilized by existing garment fill blowing machines without clogging thereof, and include a superior soft hand feel, thermal resistance and launderability. The floccules may be formed by forcing staple fibers through apertures of a rotating hollow drum to partially form the floccule structure within the drum. The partially formed floccules may be retained within the rotating drum for a dwell time to finalize the floccule structure.

Abstract: The invention provides batting that includes a nonwoven web having a first surface parallel to a second surface. The nonwoven web is made up of a fiber mixture that includes: 25 to 75 wt % spiral-crimped siliconized synthetic polymeric fibers having a denier of greater than 4 denier and less than 10 denier; and 20 to 75 wt % down treated with a durable water repellant, said down having a fill power of at least 550 in3/oz, and having a down cluster content of at least 85 wt %. Articles comprising the batting and methods of making the batting are also provided.

Abstract: The invention provides an insulation material that includes exothermic fibers, heat capturing fibers capable of retaining heat, and synthetic fibers. The heat capturing fibers having a density of at least 1.17 g/cm3or 2.0 Dtex linear density. Also provided are articles comprising, and methods of making the inventive insulation material.

Abstract: The invention provides a yarn that includes a plurality of synthetic filament plies bundled together in the form of a yarn strand, which is siliconized. Articles comprising the inventive yarn, and methods of making the inventive yarn are also provided.

Abstract: The invention provides migration resistant batting that includes a nonwoven web comprising a first surface parallel to a second surface, and a fiber mixture that includes: 35 to 65 wt % synthetic polymeric fibers having a denier of less than or equal to 1.0, wherein 50 to 100 wt % of said synthetic polymeric fibers are siliconized fibers; 10 to 30 wt % spiral-crimped synthetic polymeric fibers having a length of greater than or equal to 60 mm, wherein 50 to 100 wt % of said spiral-crimped synthetic polymeric fibers are siliconized fibers; 20 to 50 wt % elastomeric fibers having a denier between 2.0 and 7.0; and 5 to 25 wt % synthetic binder fibers having a denier of 1.5 to 4.0, said binder fibers have a bonding temperature lower than the softening temperature of the synthetic polymeric fibers, wherein said first and second surfaces comprise a cross-linked resin. Also provided are articles comprising the batting and methods of making the batting.

Abstract: The invention provides batting that includes a nonwoven web comprising a specified fiber mixture, the non-woven web having 50 to 95 wt % of a plurality of fiberballs having an average diameter of 3.0 to 8.0 mm; and 5 to 50 wt % of a plurality of portions of the nonwoven web that are adjacent to one or more fiberballs but that do not themselves comprise one or more fiberballs or any portion thereof. The batting has a density of 2 to 12 kg/m3. Also provided are articles comprising the batting and methods of making the batting.

Abstract: An insulation package and method ° fibrillation including a functional layer, a breathable water repellant insulating layer, and a highly breathable microporous membrane layer having a network of pores. The functional fabric, the highly breathable insulating layer and the microporous membrane layer are laminated to one another to form a waterproof breathable insulated fabric.

Abstract: The invention relates to a yarn containing siliconized micro-denier polyester fibers and macro-denier fibers. The blending ratio of the siliconized micro-denier polyester fibers and macro-denier fibers in the yarn ranges between about 10 to about 90 and about 90 to about 10 percent by weight. The macro-denier fiber of the yarn is selected from the group consisting of a synthetic fiber, a natural fiber, and a combination of synthetic and natural fibers. The invention also relates to a woven or knitted fabric and articles of clothing containing the yarn of the invention, either alone or in combination with other yarns.

Abstract: An insulation package and method of formation including a functional layer, a breathable water repellant insulating layer, and a highly breathable microporous membrane layer having a network of pores. The functional fabric, the highly breathable insulating layer and the microporous membrane layer are laminated to one another to form a waterproof breathable insulated fabric.

Abstract: A blowable insulation material comprising natural fibers and short cut synthetic fibers or fiber balls. The natural fibers and short cut synthetic fibers or fiber balls are individually treated with a water repellent to impart water repellency to the fibers, and later aerodynamically blended together. The water repellent fibers constitute a part or most of the blowable insulation material, thus enhancing the durability of the structure as well as water repellency, which may be advantageous during washing or laundering.