In one embodiment, a tether system for use with a protective helmet worn by a user includes multiple tethers, each tether having a first end adapted to attach to a shell of the protective helmet and a second end adapted to attach to an article worn by the user, wherein the tethers limit movement of the helmet.

A garment worn by a wearer has an impact absorbing material comprising arrays of various hexagonal or other deformable polygonal-shaped structures positioned between an exterior surface and an interior surface. When force is applied to the exterior surface, the structures of the impact absorbing materials deform (e.g., buckle) in a desired manner, reducing the force received by the interior surface.

A flexible, fibrous energy managing composite panel includes multiple flocked energy absorbing material (FEAM) layers separated by dividers. The FEAM layers can be single side or double side and can be fabricated from monofilament fibers having different properties (e.g., length and denier) flocked onto various substrates. The dividers can include sheets, fabrics, films, foam, spacer fabrics to separate the flock fibers in adjacent layers. The composite panels can be processed for breathability and flexibility. Other embodiments include piezoelectric FEAM layers and dividers for electronic sensing applications, and application of composite panels to body armor and the outer shells of helmets.

A fiber reinforced resin composite for ballistic protection comprising a plurality of first and second plies wherein the first and second plies further comprise a woven fabric and a polymeric resin. The fabric has a Russell tightness factor of from 0.2 to 0.7 and a cover factor of at least 0.45, The fabric is impregnated with the resin, the resin comprising from 5 to 30 weight percent of the total weight of fabric plus resin. The fabric of each first and second ply comprises regions wherein the fabric is distorted from an orthogonal woven state by a distortion angle of least 30 degrees. The composite may further comprising a third ply having a surface area no greater than 50% of the surface area of a first and second ply. The ratio of the number of first plus second plies to the number of third plies is from 2:1 to 12:1.

The present invention provides a head protection helmet comprising an impact resistant shell comprising: a cavity for accommodating a user's head and an array of crushable bodies having a hollow closed configuration, e.g. flutes in corrugated material 14,16, the crushable bodies each having an axis that extends outwardly from the cavity to absorb impact forces exerted along the direction of the axis.

A shock absorbing cap provides shock abortion in the space between the interior of a traditional safety helmet and the head of the wearer. The cap has a first region next to the scalp which is made of 100% knitted cotton for comfort and the absorption of sweat. A second region is made of 100% wool fleece braided fiber bundles that extend alternately in longitudinal and lateral directions sufficiently to nearly fill the space. The outermost region is made of one or more layers of braided 100% carbon fiber bundles, which run the opposite direction of the last wool lock. In an alternative, the first region is used but the second region completely fills the space with woven aramid and carbon fiber squares laid on top of each other and sewn together. The uppermost portion is laser cut for a tight but comfortable fit under the helmet.

A helmet includes interconnected flexing panels and a multi-chamber impact absorption system comprising a bladder including a plurality of adjacent compressible fluid filled chambers.

The present invention provides an apparatus to disperse and attenuate mechanical waves which travel through a human brain upon direct and indirect blunt head trauma. The apparatus comprises a pressurizable and ventable outer balloon shell encasing an inner hard shell. The pressurizable and ventable outer balloon shell releases a pressurized gas to atmosphere upon an impact to said pressurizable and ventable outer balloon shell. The pressurizable and ventable outer balloon shell is configured to compartmentalize an impact region, to reduce amplitudes of incident, reflected and transmitted mechanical waves and to dampen resonance of the mechanical waves delivered to both the apparatus and a human head.

A helmet configured to protect a human head against mild traumatic brain injury upon impact includes an outer shell and a liner consisting of fluid fillable flexible fluid chambers fluidly connected to each other by fluid connections. The fluid chambers being spaced around the circumference of the helmet and configured to fill a space between the head and the outer shell when the helmet is positioned on the head. Impact resistant flexible pads are also in the liner and are spaced around an inner circumference of the outer shell adjacent to each of the fluid fillable flexible fluid chambers. A flexible inner shell inside the liner is configured to fit closely on the head. The flexible fluid chambers are configured to compress in response to impacting of the helmet on an impact side and to force liquids through the fluid connections to inflate other fluid chambers inside the helmet thereby cushioning the head against a rebound impact on the inside of the helmet.

Comprehensive systems of providing shock resistant protection for sports activities and other activities that utilize helmets or other specialized apparel, and related methods. The system functions by employing electromagnetic devices that provide a dampening, anti-impact electromagnetic field to reduce potential impacts.