A load carrying device to be worn on a user's limb is described. The load carrying device has a distal cuff, a proximal cuff, and several elongated compression members. The ends of the elongated compression members removably attach to the distal and proximal cuffs, and are designed to compress the limb's soft tissue and stabilize the bone. The alternative of compression and relief zones captures lost motion between the limb and the device when the device is worn on the user's limb. The load carrying device can be used in conjunction with a load distribution system.

A body armor plate having an integral Molle compatible front covering that allows pouches and other Molle compatible accessories to be directly affixed to the plate. The armor plate includes a ballistic core, an integral front covering of durable fabric having a plurality of horizontal slits arranged in a Molle compatible array and a rear covering of hook or loop pile fabric material. The array of slits in the integral front cover of the armor plate allows Molle compatible pouches to be directly attached to the plate, thereby eliminating the need for a separate plate carrier or vest and greatly reduces the overall weight and bulk of the personal armor system. The hook and/or loop pile material of the integral back covering of the armor plate itself allows support straps to be connected directly to the plate without additional support or carrier apparatus needed to hold the plates to a wearer.

A body armor plate having an integral Molle compatible front covering that allows pouches and other Molle compatible accessories to be directly affixed to the plate. The armor plate includes a ballistic core, an integral front covering of durable fabric having a plurality of horizontal slits arranged in a Molle compatible array and a rear covering of hook or loop pile fabric material. The array of slits in the integral front cover of the armor plate allows Molle compatible pouches to be directly attached to the plate, thereby eliminating the need for a separate plate carrier or vest and greatly reduces the overall weight and bulk of the personal armor system. The hook and/or loop pile material of the integral back covering of the armor plate itself allows support straps to be connected directly to the plate without additional support or carrier apparatus needed to hold the plates to a wearer.

A body armor plate having an integral Molle compatible front covering that allows pouches and other Molle compatible accessories to be directly affixed to the plate. The armor plate includes a ballistic core, an integral front covering of durable fabric having a plurality of horizontal slits arranged in a Molle compatible array and a rear covering of hook or loop pile fabric material. The array of slits in the integral front cover of the armor plate allows Molle compatible pouches to be directly attached to the plate, thereby eliminating the need for a separate plate carrier or vest and greatly reduces the overall weight and bulk of the personal armor system. The hook and/or loop pile material of the integral back covering of the armor plate itself allows support straps to be connected directly to the plate without additional support or carrier apparatus needed to hold the plates to a wearer.

A body protector includes a plurality of outer left and right front side pad members with a flexible break being formed between adjacent outer left and right front side pad members. A plurality of inner left and right front side pad members is disposed behind said plurality of outer left and right front side pad members for overlapping the respective flexible breaks formed in the plurality of outer left and right front side pad members. A plurality of outer left and right rear side pad members is provided with a flexible break being formed between adjacent outer left and right rear side pad members and a plurality of inner left and right rear side pad members is disposed behind said plurality of outer left rear side pad members for overlapping the respective flexible breaks formed in the plurality of outer left and right rear side pad members.

A body protector includes a plurality of outer left and right front side pad members with a flexible break being formed between adjacent outer left and right front side pad members. A plurality of inner left and right front side pad members is disposed behind said plurality of outer left and right front side pad members for overlapping the respective flexible breaks formed in the plurality of outer left and right front side pad members. A plurality of outer left and right rear side pad members is provided with a flexible break being formed between adjacent outer left and right rear side pad members and a plurality of inner left and right rear side pad members is disposed behind said plurality of outer left rear side pad members for overlapping the respective flexible breaks formed in the plurality of outer left and right rear side pad members.

Energy distribution structures provide architectural flexibility in various configurations, materials, and scalability, which enables a vast number of applications. An energy distribution structure or array thereof may include a three-dimensional outer component and a three-dimensional inner component within the outer component. The outer component absorbs and redirects initial energy from an applied energy event, and the inner component absorbs and redirects residual energy from the applied energy event. Such an applied energy event may be caused by a ballistic or non-ballistic impact, an instantaneous or prolonged impact such as atmospheric pressure or decompression, explosive overpressure (shockwave), low-velocity contact, and blunt force trauma. Energy distribution structures can increase the strength, resilience or survivability of such events, and reduce the injury or damage to target objects such as people, vehicles, structures, vessels and surfaces by shielding same from such events.

In one aspect, the preset invention is directed to a security outfit, comprising a stabbing and cutting resistant outfit; a stabbing and cutting resistant gloves; and a controllable electroshocking system including a plurality of electroshocking terminals dispersed on an external side of the outfit and gloves; wherein the electroshocking system comprising an active state, being a state in which the terminals are active; and an idle state, being a state in which the electroshocking terminals are suspended.

Energy distribution structures provide architectural flexibility in various configurations, materials, and scalability, which enables a vast number of applications. An energy distribution structure or array thereof may include a three-dimensional outer component and a three-dimensional inner component within the outer component. The outer component absorbs and redirects initial energy from an applied energy event, and the inner component absorbs and redirects residual energy from the applied energy event. Such an applied energy event may be caused by a ballistic or non-ballistic impact, an instantaneous or prolonged impact such as atmospheric pressure or decompression, explosive overpressure (shockwave), low-velocity contact, and blunt force trauma. Energy distribution structures can increase the strength, resilience or survivability of such events, and reduce the injury or damage to target objects such as people, vehicles, structures, vessels and surfaces by shielding same from such events.

A porous metamaterial is disclosed, comprising a matrix (101) having a plurality of voids (103) therein, wherein a content of interest (104) is trapped within each of at least part of the voids (103), detached from the matrix (101), thereby providing a respective unit-cell (100) of the metamaterial, with an intended predetermined property associated with the presence of the content of interest (104) within the at least one void (103). A variety of applications of the disclosed metamaterials are presented, including armors having either non-Newtonian fluids or magnetic particles confined within the voids as a content of interest. Upon subjecting the magnetic particles to a rotating magnetic field, the magnetic particles spin within the voids and gain angular momentum, thereby improving the resistance of the armor against penetration. Systems and methods for manufacturing porous metamaterial units having contents of interest confined within voids therein, are also disclosed.