The present invention generally relates to an incineration-friendly wearable article comprising an elastomeric polymer matrix composed of an inorganic material capable of efficiently able to reduce or eliminate flue gas emissions during incineration of the article, and a method of making the incineration-friendly wearable article containing the elastomeric polymer matrix containing the inorganic material. The inorganic material acts as a catalytic thermal oxidative material.

Provided herein in some embodiments is a resistance-training system including an upper-body garment having a first section of a single-layered construction and a second section of a multi-layered construction. The single-layered construction can include a first fabric layer. The multi-layered construction can include the first fabric layer, a second fabric layer, and a resistance-providing layer in-between the first fabric layer and the second fabric layer. The resistance-training system also includes a lower-body garment having the multi-layered construction, optionally with a different resistance-providing layer than the upper-body garment. The resistance-providing layer of the upper-body garment and the lower-body garment can be configured to provide resistance to one or more user movements for a user donning the resistance-training system.

A garment includes a waistband having a first layer and a second layer. The first layer includes a concealed surface and an exposed surface. The exposed surface of the first layer configured to be in contact with a skin of a wearer. The second layer includes a concealed surface and an outer portion. The second layer secured to the first layer at an upper and a lower end to form the waistband. The garment further includes a first layer of polymer disposed on the concealed surface of the first layer and a second layer of polymer material disposed on the concealed surface of the second layer such that the first layer releasably engages the second layer.

A garment for measuring biological information equipped with an electrode and wiring, with which noise can be prevented from being mixed in to the biological electric signals to be read, and with which a wearer feels less discomfort, even under dry condition while the garment is worn. Static electrical charge generated while the garment is worn is suppressed to decrease the noise in the biological electric signals to be read by selecting a combination of electrically insulating materials constituting the garment that have smaller gap of frictional electrostatic voltage, as well as using the electrode and wiring that are stretchy and have high conductivity even when being stretched to reduce discomfort while the garment is worn.

A method of manufacturing a face mask comprises coupling at least one tensioned elastic structure to at least one web material to form a continuous elastic strap, advancing the continuous elastic strap in a machine direction, coupling the continuous elastic strap to a multi-layer mask web traveling in the machine direction to form a continuous face mask composite structure, and cutting the continuous face mask composite structure to define a plurality of discrete face masks. The multi-layer mask web comprises an inner web layer, an outer web layer, and a filter layer positioned therebetween.

A knitted athletic performance garment includes a seamless panel to cover a portion of a wearer's body, a first performance zone and a second performance zone formed in the seamless panel, wherein the first performance zone is formed of a first warp knit stitch construction and has a first modulus, wherein the second performance zone is formed of a second warp knit stitch construction and has a second modulus, wherein the first warp knit stitch construction is different from the second warp knit stitch construction, wherein the first modulus is different from the second modulus, and wherein the difference in modulus between the first performance zone and the second performance zone is due to the difference in stitch construction between the first performance zone and the second performance zone.

In order to provide an article of leg apparel, in particular a stocking, which is suitable for reducing the risk of injury to the wearer of the leg apparel, particularly during sports activities and to achieve compensation of possible functional imbalances in the musculoskeletal system of the wearer, it is proposed that the leg apparel includes at least one compression region in which, in the worn state, the leg apparel exerts a compression effect on the leg of the wearer of the leg apparel, and includes at least one stimulus-inducing structure which, in the worn state, is arranged on an inside of the leg apparel facing toward the leg of the wearer of the leg apparel.

In order to provide an article of leg apparel, in particular a stocking, which is suitable for reducing the risk of injury to the wearer of the leg apparel, particularly during sports activities and to achieve compensation of possible functional imbalances in the musculoskeletal system of the wearer, it is proposed that the leg apparel includes at least one compression region in which, in the worn state, the leg apparel exerts a compression effect on the leg of the wearer of the leg apparel, and includes at least one stimulus-inducing structure which, in the worn state, is arranged on an inside of the leg apparel facing toward the leg of the wearer of the leg apparel.

The present disclosure seeks to reduce the effects of rotational and linear acceleration experienced by the body of a user in response to an impact force. Modular disengaging systems of the present disclosure are generally suitable for coupling to protective equipment to provide a disengaging motion between various layers such that the effects of the impact force to the body of the user are reduced. Generally described, the modular disengaging systems of the present disclosure include layers configured to facilitate relative lateral motion therebetween upon an impact force.

Aspects of the present disclosure involve a wearable resistive equipment that integrates endurance and strength training capabilities into the clothing, while enhancing the effect of exercise, rest and motion. In one embodiment, the wearable resistive equipment is designed to include built-in resistance bands with end-clasping members for affixing to an external apparatus. In other embodiments the wearable resistive equipment is designed to include built-in resistance bands that can extend to various positions on a user's upper or lower legs. In yet other embodiments, the wearable resistive equipment is designed to include built-in resistance bands that extend upward toward the lower mid-section of a body for abdominal training.