A face mask (100) may comprise at least one layer of filtration material (218) configured to filter one or more harmful substances from the air breathed by a user; at least one layer of absorbent material (214) configured to absorb moisture exhaled by the user, wherein the at least one layer of absorbent material (214) spans the entire inner surface area of the mask (100); at least one layer of waterproof material (216) located between the at least one layer of filtration material (218) and the at least one layer of absorbent material (214) configured to prevent moisture from the absorbent material from contacting the filtration material; and at least one layer of anti-bacterial material (212) located adjacent to the at least one layer of absorbent material (214) and forming the inner surface of the mask (100). The face mask (100) can absorb moisture exhaled by a user.

A face mask (100) may comprise at least one layer of filtration material (218) configured to filter one or more harmful substances from the air breathed by a user; at least one layer of absorbent material (214) configured to absorb moisture exhaled by the user, wherein the at least one layer of absorbent material (214) spans the entire inner surface area of the mask (100); at least one layer of waterproof material (216) located between the at least one layer of filtration material (218) and the at least one layer of absorbent material (214) configured to prevent moisture from the absorbent material from contacting the filtration material; and at least one layer of anti-bacterial material (212) located adjacent to the at least one layer of absorbent material (214) and forming the inner surface of the mask (100). The face mask (100) can absorb moisture exhaled by a user.

An article of apparel is described which is effective to regulate the temperature of the wearer. In an embodiment, the article of apparel includes a base textile with a thermal regulation membrane. The thermal regulation membrane contains a plurality of system-reactive components selectively engaged heat and/or moisture. In an embodiment, the printed coating includes a cooling agent, a phase change material, and a heat dissipation material. In operation, the article of apparel is effective to delay/diminish the rise in skin temperature (compared to a garment lacking the membrane), increasing wearer comfort.

An article of apparel is described which is effective to regulate the temperature of the wearer. In an embodiment, the article of apparel includes a base textile with a thermal regulation membrane. The thermal regulation membrane contains a plurality of system-reactive components selectively engaged heat and/or moisture. In an embodiment, the printed coating includes a cooling agent, a phase change material, and a heat dissipation material. In operation, the article of apparel is effective to delay/diminish the rise in skin temperature (compared to a garment lacking the membrane), increasing wearer comfort.

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/liquid spots on the face layer outer surface.

An article of apparel is formed that is effective to regulate the temperature of the wearer. In an embodiment, a thermal regulation composition is applied to a surface of a textile substrate at a first temperature and a first pressure to form a thermal regulation membrane disposed on the surface of the textile substrate. The textile substrate with the thermal regulation membrane is compressed at a second pressure and a second temperature to position a portion of the thermal regulation membrane below the surface of the textile substrate. The textile substrate is incorporated into an article of apparel. The thermal regulation composition can include one or more system reactive components provided within a binder, where a system reactive components can include a cooling agent, a latent heat agent and/or a heat dissipation agent.

An article of apparel is formed that is effective to regulate the temperature of the wearer. In an embodiment, a thermal regulation composition is applied to a surface of a textile substrate at a first temperature and a first pressure to form a thermal regulation membrane disposed on the surface of the textile substrate. The textile substrate with the thermal regulation membrane is compressed at a second pressure and a second temperature to position a portion of the thermal regulation membrane below the surface of the textile substrate. The textile substrate is incorporated into an article of apparel. The thermal regulation composition can include one or more system reactive components provided within a binder, where a system reactive components can include a cooling agent, a latent heat agent and/or a heat dissipation agent.

A fabric structure includes a first layer, a second layer, and a spacing layer that interconnects the first layer and the second layer, wherein, the interconnecting of the first layer, second layer, and third layer forms a plurality of channels.

Aspects herein are directed to garments that incorporate adaptive stand-off structures in the form of fluid-filled bladders that transition from a first shape to a second shape when exposed to moisture in the form of, for example, perspiration. When the fluid-filled bladders are in the first shape, the fluid-filled bladders are generally planar with a surface plane of a textile layer forming the garment so that the garment comes into contact or near contact with the wearer's body surface. When the fluid-filled bladders are in the second shape, they extend in a z-direction away from the surface plane of the textile layer forming the garment such that the textile layer is spaced apart from the wearer's body surface by the stand-off structures to reduce cling and facilitate the evaporation of perspiration.

Described herein are sweat-diverting devices which can be adhered to a wearer by an adhesive. The sweat-diverting devices described here may be adhered over a portion of the face without circumscribing the head. Such sweat-diverting devices may comprise a first leg and a second leg that are joined at a base of the device to form a channel therebetween, where at least a portion of the base is more rigid than the first and second legs such that an acute angle between the first and second legs is maintained when the sweat-diverting device is applied on a wearer's forehead. In some variations, the thickness of the base is greater than the thickness of either of the legs, which may help to maintain a separation between the tips of the legs even when the sweat-diverting device is applied to a wearer's forehead.