The invention provides a knitted functional fabric for wicking moisture away from the body of a user. The fabric comprises a technical face formed from a yarn; a technical back formed from a yarn; and a spacer formed from a yarn that connects the technical face to the technical back. The technical face and the technical back comprise a hydrophilic yarn.

Staple cartridge assemblies for use with surgical stapling instruments and methods for manufacturing the same are provided. Scaffolds for use with a surgical staple cartridge and methods for manufacturing the same are also provided.

A headgear or headgear segments are manufactured to shape thereby producing little or no waste material. Such headgear or headgear segments (components) may comprise a unitary, substantially seamless structure. Techniques such as knitting, braiding, crocheting, and 3D printing may be used to produce the headgear. As a result, the manufacturing process may have reduced steps, the amount of material waste may be reduced, and there are virtually no seams in the headgear between adjoining sections, thereby resulting in headgear with enhanced comfort.

A multi-ply fabric is disclosed. The fabric has a top yarn arranged to face an atmosphere and a bottom yarn connected to the top yarn, arranged to contact a surface of a user's body. The bottom yarn has a surface area to volume ratio (SA:V) that is greater than the SA:V of the top yarn. In some embodiments, the bottom yarn has a SA:V that is about 25% to about 50% greater than the SA:V of the top yarn.

A pressure application relating to a garment that includes at least one active part for applying pressure to at least one body part of a subject and the active part includes at least one bladder fillable with a fluid so as to obtain a homogeneous positive pressure applied to the whole of the corresponding at least one body part of the subject, the pressure application garment also including for the or each active part, at least one interface pressure sensor, a control unit, and a driving module wherein the pressure application garment further includes at least one sheet of a fabric made of at least three superimposed layers.

For the purpose of providing a skin material that is easily bonded to a base material, an interior material including the skin material, and a method for manufacturing the interior material, a skin material includes a base cloth layer and a design layer. The base cloth layer includes a surface fabric and a back fabric, and a binding yarn that binds the surface fabric and the back fabric. The binding yarn is erected between the surface fabric and the back fabric to form a void inside the base cloth layer. An embossed pattern is formed in a concave shape on the skin material from the design layer side. A thin portion is formed in a band shape in a peripheral edge portion of the skin material. The skin material is bonded to the base material to obtain an interior material.

An article of apparel includes a multilayered knit fabric structure. The knit fabric structure includes a first knit layer and a second knit layer, and a resilient intermediate knit layer disposed between and coupling with the first knit layer and the second knit layer. The intermediate knit layer has a corrugated shape along a first direction of the intermediate knit layer with consecutive peaks that are oriented in opposing directions such that the peaks comprise a set of first peaks oriented in a first peak direction and a set of second peaks oriented in a second peak direction that opposes the first peak direction. The first peaks of the intermediate knit layer connect with the first knit layer and the second peaks of the intermediate knit layer connect with the second knit layer.

Described herein is a 3D spacer fabric reinforced composite, a process for producing it, a method of using it in footwear, and a footwear including it.

Embodiments of the disclosure provide structures for sensing, activation, and signal networking in a composite textile. According to one embodiment, a composite textile can comprise an activation layer of a reactive yarn knit into a fabric. The reactive yarn can have at least one physical property that changes in response to a stimulus. A signaling layer of a first conductive yarn can be knit into the fabric with the activation layer. The first conductive yarn provides the stimulus to the reactive yarn. A sensing layer comprising second conductive yarn can be knit into the fabric with the activation layer and signaling layer. The second conductive yarn can provide a feedback signal corresponding to the stimulus provided by the first conductive yarn of the signaling layer.

A warp knitting system may knit a seamless tube of fabric. The fabric may have a spacer between outer and inner fabric layers. The knitting system may have first and second needle guide systems. The first and second needle guide systems may each have selectively linked needle bed sections that guide respective needles. A guide bar system may have guide bars that dispense strands of material during knitting. Each guide bar may be positioned using a respective guide bar positioner. The guide bar system may be shifted relative to the needles using a rotational positioner. The needle guide systems and guide bar system may be formed from selectively coupled links. The selectively coupled links may be configured to adjust the diameter of the tube of fabric to a desired value. The thickness of the tube may be adjusted by adjusting a gap between the first and second needle guide systems.