Articles and methods of using and making adaptive garment portions are provided. An adaptive garment portion is one that has shifting surfaces with apertures that shift from an aligned to an offset orientation depending on environmental conditions/stimuli. For example, a first surface material and a second surface material may be coupled by a responsive material portion. The responsive material portion may physically change in response to a change in environmental conditions internal or external to the garment (e.g., thermal energy, moisture) and/or stimuli (e.g., light energy, electrical energy, magnetic fields). The physical change in the responsive material portion facilitates the planar shift of the first surface material relative to the second surface material.

A one-piece body suit comprises a collar defining a high neck opening and a torso comprised of a four-way stretch fabric. The torso includes a thoracic region, an abdominal region, and a pelvic region. The thoracic region is connected to the collar and defines arm passages. The abdominal region is connected to the thoracic region. The pelvic region is connected to the abdominal region and defines leg passages. An entry opening for the one-piece body suit is positioned in a back of the torso. The entry opening is free of releasable mechanical fasteners.

A sport bottom wear having an integrated ball holder is disclosed. The sport bottom wear includes a waistband having a front waistband portion and a back waistband portion, a front fabric connected to the front waistband portion that is configured to be worn at a front side of a person, a back fabric connected to the back waistband portion that is configured to be worn at a back side of the person, and a ball holder non-removably secured to an outer surface of the front fabric.

A composite element for the realization of protection devices of parts of the human body includes a matrix, a reinforcing element, at least partially embedded in the matrix, wherein the reinforcing element has at least one opening shaped so as to define an undercut between the matrix and the reinforcing element, such undercut being suitable for determining a mechanical constraint between the matrix and the reinforcement element.

A wrist protector includes a contact pad to be worn on a wrist of a user, a plurality of air tubes disposed on the contact pad, a pump configured to inject air from an outside into the plurality of air tubes, and a discharge valve configured to discharge the air stored in the plurality of air tubes to the outside.

Articles and methods of using and making adaptive garment portions are provided. An adaptive garment portion is one that has shifting surfaces with apertures that shift from an aligned to an offset orientation depending on environmental conditions/stimuli. For example, a first surface material and a second surface material may be coupled by a responsive material portion. The responsive material portion may physically change in response to a change in environmental conditions internal or external to the garment (e.g., thermal energy, moisture) and/or stimuli (e.g., light energy, electrical energy, magnetic fields). The physical change in the responsive material portion facilitates the planar shift of the first surface material relative to the second surface material.

A neuromuscular enhancement system comprising engineered textile structures is worn by a user to increase strength, preserve energy, and increase motion accuracy. It can be used in surgery and interface with operating room technology, allowing the surgeon to perform surgery for longer hours and with increased accuracy. The system is a flexible structure, worn over the user's body, comprising engineered textile materials that apply forces to different areas of the user's body. The engineered materials can be activated to apply a force to a region of the body to assist in desired user output. The engineered materials can be embedded with sensors to detect and monitor motion and other properties. The engineered materials can be embedded with a communication system that communicates between a computer system and the system and its sensors and components. The enhancement system can be configured for use in applications other than surgery.

A method for producing an improved mask or device for killing or deactivating pathogens, such as viruses. A mask or device produced in accordance with the method for producing. A method for killing, or making inviable, viruses, such as airborne viruses.

The present disclosure provides a method of preparing a silver alloy composite nanomaterial. The preparation method comprises forming a silver alloy comprising at least one of copper, zinc, magnesium, aluminum and titanium into a composite metal rod; evaporating the silver alloy of the composite metal rod, resulting in a gaseous alloy; rapidly cooling the gaseous alloy so as to condense the silver alloy into a solid state; and collecting the cooled powder so as to obtain the silver alloy composite nanomaterial.

An improved respirator mask that provides a tighter fit around a user's face and results in an improved seal therebetween and thereby eliminates the need for stocking different sized protective face masks and fit testing, and further provides greater protection due to the improved seal between the mask and the user's head and face. The improved respirator mask can further be fitted with specialized filters, exhalation valves, and eye guards.