1831results about "Armour plates" patented technology

Woven fabric laminates having superior resistance to penetration by ballistic projectiles, assemblies thereof, and the method by which they are made. In one embodiment, among others, a laminate of the invention is comprised of a fabric woven from a high strength, high modulus yarn, a surface coating of a low modulus elastomer and a plastic film bonded to its elastomer-coated surface.

Bi-directional and multi-axial fabrics, fabric composites, ballistically resistant assemblies thereof, and the methods by which they are made. The fabrics are comprised of sets of strong, substantially parallel, unidirectional yarns lying in parallel planes, one above the other, with the direction of the yarns in a given plane rotated at an angle to the direction of the yarns in adjacent planes; and one or more sets of yarns having lower strength and higher elongation interleaved with the strong yarns. The fabrics of the invention provide superior ballistic effectiveness compared to ordinary woven and knitted fabrics but retain the ease of manufacture on conventional looms and knitting machines.

A combination container for transporting articles which can concurrently be used as a ballistic shield from high speed projectiles such as bullets and / or shrapnel. The container, which can be a backpack, purse, computer carrying case, or similar bag style device, features a forward wall and a rear wall each having forming a compartment therebetween and at least one ballistic shield, attachable to one or both of the forward wall and said rear wall. Upper flaps and lower flaps attached to the bag afford deployable additional protection from attached ballistic shields. A handle provides a means for elevating the deployed elongated flaps and attached bag in front of the user to provide a large area of protection from such high speed projectiles.

An armor system is provided having an outer case of woven or unidirectional fibers filled with one or more protective materials. The outer case includes a pressure sensitive adhesive bonded to one side for quick and easy application to a body to be protected. The protective materials may include ceramic material which may be in the form of ceramic tile sheets, loose ceramic balls, or perforated tiles, multiple layers of woven or unidirectional cloth, and steel mesh. These materials may be used alone or in any combination. A tensioned energy layer and / or a self-healing layer may be provided to fill a void created by a projectile.

Armor apparatus comprising a non-oxide ceramic element bounded to an aramid fiber composite baking. A special ceramic and a novel aramid fiber substrate are combined in a unique arrangement that permits a single armor system to provide protection against multiple types of ballistic attack. The armor apparatus may be used alone or as a supplementary armor system to provide increased protection from ballistic attack.

The present invention relates to compositions comprising rigid-rod polymers and carbon nanotubes. The compositions comprise dispersed carbon nanotubes aligned with rigid-rod polymers. The alignment of the nanotubes and polymers can be liquid crystalline. The rigid-rod polymers of this invention include, but are not limited to, polymers and copolymers comprising benzobisazole, pyridobisimidazole and benzamidazobenzo-phenanthroline repeat units. Dispersion of carbon nanotubes is achieved by in-situ polymerization in the presence of the carbon nanotubes, which may be either single-wall or multi-wall or a combination of both. The polymer compositions comprising carbon nanotubes may be spun into fibers or formed into films. The strength of the resulting fibers of the present invention is significantly greater than that of fibers without carbon nanotubes.

A composite armor including a disrupting layer and a backing layer provides protection against blast and ballistic threats. The disrupting layer includes ceramic particles or tiles that disrupt the incoming projectile, while the backing layer prevents penetration past the armor by the disrupted projectile. The disrupting layer may include a layer of polygonal ceramic tiles with a deflecting front surface, encased by a retaining polymer, and may also include fire-retarding particles.

Homeland Intelligence Systems Technology “H-LIST” and battlefield apparatus comprises nano-sensors embedded in a silicon substrate and etched / fused in a micro-fibered material. The silicon substrate is alloyed with miniaturized steel responsive to weapons, preventing bullet penetration and providing effective detection platform on an outfit. The outfit is operable for monitoring suspicious terrorist activities and for tracking biological and chemical gases, and explosives, including weapons of mass destruction and physiological conditions of personnel. Disclosed embodiments provide wearable detection apparatus comprising plurality sensors on an outfit configured to be worn by military personnel, an officer, a security officer, a bus driver, hostesses, Doctors, civil establishment hospital patients and the like, for protection and for sensing deadly gases, explosives, and physiological conditions in a defined area. A receptor is operatively configured and worn proximate to the outfit responsive to detection signals. The receptor is communicatively connected to the sensors and operable for receiving / analyzing detection signal communications wirelessly indicative of the presence of a sensed agent, whereby detected signals are transported wirelessly to a central security monitoring station, providing communications to first responders. The communications could be reachable to backup security personnel or agents, prompting them to respond to the vicinity of the detection. The sensors are multifunctional and coded to recognize wavelike pattern of gases and explosives traveling through the wave. Embodiments provide the outfit and the receptor being operable to process the portion of the detection signal to determine the detection type and / or whether there is a concealed object by conducting a test in which a first characteristic of a first dielectric constant associated with a person is determined, and a second characteristic of a second dielectric constant associated with the concealed object and or weapons of mass destruction is determined to expedite data transmission and communication to first responders.

A flexible protective padding material is described and comprises an array of resilient multilayered elements or blocks which have generally planar top and bottom surfaces and each of which have at least two layers which include a first layer bonded to an outer second layer. The total compressibility of each element with the at least two layers, the spacing between the elements and the total thickness of the elements provides the elements with the ability to compress such that at least one side wall of each of adjacent elements move together and touch each other to provide a joined outer surface of elements which dissipates a blow to the protective padding.

A ceramic composite tile armor which is reinforced at the more vulnerable joint and free edge areas, using glass or ceramic strips or overlays bonded with an adhesive to the outer surface of the tile joints and free edges. This reinforcement provides improved ballistic threat protection for ground vehicle, aircraft, watercraft, spacecraft, and body (personnel) ceramic tile armor applications. Glass or ceramic overlay strips assist in fracturing impacting projectiles that strike the tile joints or free edges. The substrate laminate backing can then capture fragments of the projectile and broken ceramic and prevent penetration. The invention provides improved protection over conventional joint and edge enhancements with higher reliability of accurate positioning over joint and free-edge areas, with less added weight, and at lower associated production costs.

A countermeasure system which is capable of defusing rocket propelled grenades (RPG) is provided by spacing an array of explosive charges or primacord from the protected structure to allow and sense an ogive of the fused RPG to enter into a functional plane of the array initiating one or more of the charges to collapse to ogive. The array is supported flexibly or rigidly and further ballistic protection is incorporated behind the array in fixed or inflatable forms to provide protection of the structure from the explosive products from the array and the ballistic impact of the defused RPG.

This invention relates to a polymeric ballistic material comprising a high molecular weight, high density polyethylene (HMW-HDPE) and / or composite, and to articles made from this ballistic material suitable for stopping projectiles. The articles may include backstops for firing ranges and home use, armor for vehicles, personnel, and aircraft, training targets, protection for temporary or mobile military and / or police installations, buildings, bunkers, pipelines or any “critical” need equipment that might require protection from ballistic impact, and the like.

Hybrid laminated unidirectional fiber sheets, and assemblies thereof, having utility for impact absorption, ballistic-resistance, penetration-resistance, spall shields, structural composites and for other applications.

A ceramic composite tile armor which is reinforced at the more vulnerable joint and free edge areas, using glass or ceramic strips or overlays bonded with an adhesive to the outer surface of the tile joints and free edges. This reinforcement provides improved ballistic threat protection for ground vehicle, aircraft, watercraft, spacecraft, and body (personnel) ceramic tile armor applications. Glass or ceramic overlay strips assist in fracturing impacting projectiles that strike the tile joints or free edges. The substrate laminate backing can then capture fragments of the projectile and broken ceramic and prevent penetration. The invention provides improved protection over conventional joint and edge enhancements with higher reliability of accurate positioning over joint and free-edge areas, with less added weight, and at lower associated production costs.

Molded body armor panels conformed to fit individual torsos based upon gender or, in custom applications, individual features of a particular male or female torso. The individual body panels are constructed of multiple layers of twill or other unconventional long float woven ballistic fibers with each layer impregnated with a curable adhesive. Additional reinforcement may be supplied in appropriate areas, such as breasts, spine, sternum and edges. The multiple impregnated layers of fabric are placed within a mold conforming to the particular torso contour desired. The long floats of the fabric allows the layers to stretch or compress as required to the particular shape desired. The adhesive is cured in the mold under low heat and low pressure, binding the layers of fabric together, as well as binding the conformed yarns of each individual layer in permanent contour. Interior and exterior coverings for comfort and appearance may be supplied.

A lightweight armor system may comprise multiple reinforcement materials layered within a single metal matrix casting. These reinforcement materials may comprise ceramics, metals, or other composites with microstructures that may be porous, dense, fibrous or particulate. Various geometries of flat plates, and combinations of reinforcement materials may be utilized. These reinforcement materials are infiltrated with liquid metal, the liquid metal solidifies within the material layers of open porosity forming a dense hermetic metal matrix composite armor in the desired product shape geometry. The metal infiltration process allows for metal to penetrate throughout the overall structure extending from one layer to the next, thereby binding the layers together and integrating the structure.

A composite woven fabric made up of at least two plies of individual woven fabrics bonded together by a layer of flexible bonding resin disposed on juxtaposed surfaces of the individual woven fabrics. The bonding agent covers at least about 75%, preferably 100%, of the juxtaposed individual fabric surfaces and does not exude through the interstices of the woven fabric. The thus constituted fabric material is very good for use in making an anti-ballistic composite fabric. An anti-ballistic composite fabric is made up of at least one of these bonded woven fabrics sub-composites, preferably in combination with conventional non-woven fabric layers. This composite product has an exceptionally low areal density but still can withstand the impact of a 44 magnum projectile. It also offers excellent protection against knife and ice pick threats. One attribute of this composite fabric is its ability to reduce the trauma conventionally caused by the impact of a ballistic projectile, even though the projectile is stopped from penetrating the fabric.

Structures based upon periodic cellular materials that provide a potential for defeating combinations of both air blast loading and ballistic attack either sequentially or simultaneously, or combination of both. The cellular structures may also be configured to meet the stiffness and strength support requirements of particular vehicle or other applications, systems or structures. The armor is therefore potentially able to support normal service loads and defeat blast and ballistic threats when necessary. The structure provides for using efficient load support capabilities of the material (without a high armor protection level) in low threat conditions, as well as the ability to modify the system to increase its level protection to a desired or required level. This would reduce the weight of the protection system in normal (low threat) conditions which reduces vehicle wear and tear, as well as cost savings in fabrication of applicable structures or systems.

Protective clothing for protection against puncture injuries is constructed from more than one layer of a fabric coated with hard solids. The hard solids are applied in accordance with abrasives technology. This protective clothing offers equally good protection against both knife- and needle-like puncture implements. For clothing intended to protect against puncture and projectile injuries, a package of 2-20 layers of a fabric coated with hard solids is combined with a package of 6-50 layers of an uncoated aramid woven fabric.

PCT No. PCT / FR96 / 00122 Sec. 371 Date Jul. 24, 1997 Sec. 102(e) Date Jul. 24, 1997 PCT Filed Jan. 24, 1996 PCT Pub. No. WO96 / 22953 PCT Pub. Date Aug. 1, 1996An ultra-high performance composite concrete, with low cement and fiber content and having good mechanical properties as well as good impacts, shocks and projectile protection properties, includes hydraulic binder, aggregates, an admixture of metal fibers. Particularly, the composite concrete includes 70% to 85% of particles (A) having a particle size distribution which ranges from 0.01 to 3 mm up to particle size distribution which ranges from 0.01 to 0.50 mm; 2% to 10% of particles (B) having particle size of between 0.01 and 1 mu m; 3% to 20% of hydraulic binder; 0.1 to 3% of a dispersant or plasticizer; 0.05% to 8.5% of fibers; and, mixing water, wherein the percentages being weight percentages based on the sum of the weights of constituents a) to d).

A composite material comprising a multitude of masses and fibers supported on a flexible substrate arranged in a manner to absorb energy from a ballistic projectile and thereby protect persons or property from ballistic injury or damage. An array of small, tough disc-like masses are suspended in a three dimensional cradle of high-tensile elastomeric fibers such that energy from an incoming ballistic projectile is first imparted to one or more masses and the motion of the masses are restrained by tensile strain of elastomeric fibers substantially in the direction of travel of the incoming projectile. The projectile is eventually decelerated to harmless velocity through a combination of transfer of momentum to the masses and the elastic and plastic tensile deformation of the fibers. One or more layers of the composite material can be assembled to form body protective armor (“bullet-proof vest”) or property protective armor, the number and characteristics of the layers being adjusted according to the specific ballistic threat anticipated.