A shock attenuation device is used to reduce the effect of a blast shock by both disrupting the propagation of the shock and by spreading, deflecting, and/or redirecting the shock. The device includes multiple layers of different materials, having different shock transmission impedances, stacked in a direction in which the blast shock travels through the device. At least one of the layers includes a material that crumples in response to the shock, undergoing an inelastic deformation in response to the shock. Also, at least one of the layers includes a material that has a directional shock transmission impedance that provides different shock transmission impedance within different directions within the material. The directional shock transmission material may be oriented such that the preferred direction of shock transmission within the material is oriented away from the direction of in which the multiple layers of material are stacked.

An aspect of the present disclosure is directed to low-alloy steels exhibiting high hardness and an advantageous level of multi-hit ballistic resistance with low or no crack propagation imparting a level of ballistic performance suitable for military armor applications. Various embodiments of the steels according to the present disclosure have hardness in excess of 550 BHN and demonstrate a high level of ballistic penetration resistance relative to conventional military specifications.

An aspect of the present disclosure is directed to low-alloy steels exhibiting high hardness and an advantageous level of multi-hit ballistic resistance with low or no crack propagation imparting a level of ballistic performance suitable for military armor applications. Various embodiments of the steels according to the present disclosure have hardness in excess of 550 BHN and demonstrate a high level of ballistic penetration resistance relative to conventional military specifications.

An armor system pellet is provided. The pellet includes a pellet body attached to four projections for interlocking adjacent pellets when arranged in an array. The pellet is configured such that the width of a first pair of co-linear projections is less than a width of a second pair of co-linear projections.

An enclosure includes an enclosure body having an enclosure cavity, the enclosure body formed from a first material, and at least one ballistic tolerant plate disposed within the enclosure cavity to form a plurality of channel enclosures within the enclosure cavity, the at least one ballistic tolerant plate formed from a ballistic tolerant material.

An enclosure includes an enclosure body having an enclosure cavity, the enclosure body formed from a first material, and at least one ballistic tolerant plate disposed within the enclosure cavity to form a plurality of channel enclosures within the enclosure cavity, the at least one ballistic tolerant plate formed from a ballistic tolerant material.

An armor plate damage detection and testing system is disclosed that uses an initial electrical signal to generate mechanical energy waves that travel across the armor plate and reflect off the plate surfaces, wherein the reflections of those waves are recorded and analyzed with reference to a previously stored wave reflection signature to determine if damage has occurred to the armor plate. The analyzed results are communicated to the user in real time using a display unit and can further be communicated to a remote entity through an incorporated wireless transmitter.

An armor plate damage detection and testing system is disclosed that uses an initial electrical signal to generate mechanical energy waves that travel across the armor plate and reflect off the plate surfaces, wherein the reflections of those waves are recorded and analyzed with reference to a previously stored wave reflection signature to determine if damage has occurred to the armor plate. The analyzed results are communicated to the user in real time using a display unit and can further be communicated to a remote entity through an incorporated wireless transmitter.

A ballistic cover system that embodies a novel ballistic blanket and method for containing energy and fragmentation projected during a supercharged engine explosion is provided. The ballistic cover system enables the ballistic blanket to react to the engine explosion, positioning itself from a racing configuration to a ballistic configuration. A plurality of restraint straps are attached to the supercharger, keeping it along a controlled path during the explosion. Moreover, two of the restraint straps act as mounting rails that the ballistic blanket rides along when reactively moving from the racing configuration to the ballistic configuration.

A ballistic cover system that embodies a novel ballistic blanket and method for containing energy and fragmentation projected during a supercharged engine explosion is provided. The ballistic cover system enables the ballistic blanket to react to the engine explosion, positioning itself from a racing configuration to a ballistic configuration. A plurality of restraint straps are attached to the supercharger, keeping it along a controlled path during the explosion. Moreover, two of the restraint straps act as mounting rails that the ballistic blanket rides along when reactively moving from the racing configuration to the ballistic configuration.