Custom fitting protective athletic equipment composed of larger compressive chambers to generally surround a body part as well a plurality of smaller compressive chambers, which can be shaped to absorb rotational impact forces, outside the larger compressive chambers. A hard or yielding shell positioned either outside the chambers or between them can provide additional impact dampening and protection. Both the larger and smaller compressible chambers preferably contain compressible fluid, such as air, another gas, gel or liquid. Valves are preferably provided in the chambers so that the fluid can be controlled when an impact is received. A method is also disclosed to use three-dimensional scanning techniques and three-dimensional 3D printer manufacturing techniques to produce the protective athletic equipment of the present invention.

An article including one or more moisture wicking layers and one or more fibrous layers. The fibrous layers may have generally vertically oriented fibers, which may be oriented generally perpendicularly to a surface having or producing moisture. The article may be adapted to remove moisture form the surface having or producing moisture. The article may be breathable. The article may be quick drying. The article may provide cushioning. The article may be a wearable item.

An article including one or more moisture wicking layers and one or more fibrous layers. The fibrous layers may have generally vertically oriented fibers, which may be oriented generally perpendicularly to a surface having or producing moisture. The article may be adapted to remove moisture form the surface having or producing moisture. The article may be breathable. The article may be quick drying. The article may provide cushioning. The article may be a wearable item.

A self-modelling padding for garments or supports which has an elastomeric matrix having a cross-linked, three-dimensional open cell structure, and a self-modelling paste embedded in the elastomeric matrix is provided. The elastomeric matrix is configured to have a shape memory. The self-modelling paste has a plastic behavior.

A jacket has a torso portion, a pair of underarm portions adjacent the torso portion, and a pair of arms, one of each of the arms being adjacent one of each of the underarm portions, the cloth defining a first area and a second area. The article further includes a first assembly including one or more scent control materials provided within the first area defined by a cloth and a second assembly including one or more scent control materials provided within the second area defined by the cloth, the second assembly having a different composition than the first assembly. The first assembly and the second assembly together include activated carbon and at least one of carbon treated to adsorb hydrogen sulfide, zeolite, ammonia stone, and carbon treated to adsorb mercaptan.

Disclosed herein are devices for preventing or treating an injury to an individual. Also provided are devices and methods for alleviating pain or discomfort caused by equipment or other padding or articles of clothing or uniform. The device can include a disposable padded tape having a plurality of force absorbing zones. It can also include an adhesive layer for attaching the device to a body contacting surface.

A body impact protection system includes an inner layer and an impact force dampening and defusing structure. The inner layer includes a material composition and is adjacent to a body part when the body impact protection system is worn. The impact force dampening and defusing structure is juxtaposed to the inner layer and includes a plurality of components. The components function to reduce pressure on the body part from an impact force on a layer by layer basis. Each layer of the system dampens and defuses the impact force such that, by the time it reaches the body part, it has been substantially attenuated and spread over a large area.

The disclosed apparatus, system and method includes at least a protective garment that prevents concussive effects on internal organs. The garment many include a garment body; and, embedded in the garment body, at least one multi-sectional pad. At least two of the multi-sections may comprise: at least one aramid layer; at least one multi-durometer foam layer having a substantially similar surface area to that provided by the at least one aramid layer; and at least one shield layer.

A protective padding section includes an upper layer, an opposing lower layer and a repeating array of cushioning regions disposed between, and continuously bonded to, the upper layer and the lower layer. Each cushioning region has a same first cushion thickness. A repeating array of apertures is disposed between the cushioning regions and each aperture extends through the padding section. The padding section has a first thickness and a first width and upon application of a force, the padding section expands in width from the first width to a second width greater than the first width and when the application of force is removed, the width of the padding section contracts to the first width.

Body-protector (1,1′) comprising: a wearable article (2,2′); a shock-absorbing pad (3) anchored to the wearable article (2,2′); wherein the shock-absorbing pad (3) comprises a first member (4) configured to absorb shock energy by an irreversible plastic deformation and a second member (5) configured to absorb shock energy by a reversible elastic deformation and wherein the first member (4) is embedded in the second member (5); wherein the first member (4) comprises a plurality of cells (6) interconnected each other via their sidewalls (7) to form a pliable sheet (8) configured to absorb energy through irreversible deformation of said sidewalls (7) or said interconnections in response to a compressive load applied to said sheet (8). Said wearable article (2) being a glove (2′) wherein said shock-absorbing pad (3) is anchored to a back of the glove (2′).