Aspects herein relate to a garment having zoned insulation features. The zoned insulation features comprise projections that extend in the z-direction with respect to the surface of a base material forming the garment such that the projections face toward a body surface of a wearer when the garment is worn. The number and/or size of the projections may vary over the garment depending on the amount of insulation needed in different areas of the garment.

Aspects herein are directed to an apparel item that promotes thermo-regulation through the use of engineered openings, venting, and/or stand-off structures. In exemplary aspects, 20-45% of the apparel item may comprise the engineered openings. Vents may be positioned on the apparel item in areas that experience high amounts of air flow to help channel air into the apparel item. The stand-off structures may be positioned on an inner-facing surface of the apparel item where they help to create a space between the apparel item and the wearer's body surface in which air can flow and help cool the wearer by promoting evaporative cooling.

Methods, apparatuses, and systems associated with personal protective equipment are provided. An example mask may include an exterior layer, one or more mask straps coupled to the exterior layer, and a filter layer. An example method for manufacturing a protective garment may include providing a front segment, providing a back segment, and connecting the front segment and the back segment by at least forming a front raglan seam.

Examples of a knitted or woven fabric with moisture management function are described, comprising a face fabric layer with a durable water repellency (DWR) additives forming a fabric outer surface that is hydrophobic and a back fabric layer comprising a second yarn that is highly hydrophilic forming a moisture regain core to absorb the moisture and spread it across on an inside surface of the back fabric layer. The outer (face) layer of the fabric is hydrophobic due to the added DWR additives to the first yarn while the inner (back) layer of the fabric is highly hydrophilic that absorbs and spreads the moisture across the inner side of the back layer so that it dries faster making the outer surface of the face fabric layer dry thus reducing the occurrence of water I liquid spots on the face layer outer surface.

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.

Disclosed is a method and apparatus for knitting a fabric using a knitting machine. The knitting machine is arranged to knit with a plurality of yarns using a corresponding plurality of knitting needles, each knitting needle being arranged during knitting of a stitch to connect with and knit with one of the plurality of yarns. The method controllably varies the stitch length for each stitch in dependence on the pattern to be knitted.

Articles of wear having one or more textiles that include a low processing temperature polymeric composition and a high processing temperature polymeric composition, and methods of manufacturing the same are disclosed. The low processing temperature polymeric composition and the high processing temperature polymeric composition can be selectively incorporated into a textile to provide one or more structural properties and/or other advantageous properties to the article. The textile can be thermoformed to impart such structural and/or other advantageous properties to the article of wear. This abstract is intended as a scanning tool for purposes of searching in the particular art and is not intended to be limiting of the present disclosure.

The disclosure concerns a knit massaging item of clothing to be worn by a person, comprising at least a raised knit active portion (14) to be pressed against the skin of the person wearing it so as to massage the skin, characterized in that the active portion (14) includes multiple protruding beads (22) designed to massage the person.

A cooling shirt is disclosed. The shirt is formed from a resilient fabric comprised of a first yarn of a first material and a second yarn of a second material twisted and knitted together. In one embodiment, the first yarn is formed from fibers have surfaces adapted to channel liquid from wet areas to dry areas and the yarn has pores adapted to permit evaporation of liquid vapor therethrough, and the second yarn is resilient and capable of being stretched at least 300% without deforming. The first yarn constitutes between 85% and 95% of the weight of the fabric with the second yarn constituting the remainder. In one embodiment the resilient fabric is capable of being resiliently stretched at least 40% in each of two perpendicular directions without tearing and returning immediately to its at-rest position. In one embodiment, the first yarn has a porosity of between approximately 20% and 45%.