In one embodiment, a stock assembly is provided. The stock assembly includes a shell having a front region, a grip region, a rear region, a frame cavity partially defined by the shell, and one or more stiffener cavities disposed within the shell. One or more stiffeners are disposed within the one or more stiffener cavities. The stiffeners include a core material and the core material is bonded to an internal surface of the one or more stiffener cavities.

A custom-fitted handgun holster is made using a sleeve of heat-shrinkable polymeric material which has been size-reduced by heating into conformity with at least a portion of a particular handgun. The sleeve may be attached to a holder and decoratively covered if desired.

A one-piece gunstock for firearm and the relevant manufacturing method are described, said one-piece gunstock being composed of a frame (1) having two half-shells (1a, 1b) extended longitudinally and defining a recess inside the frame (1), a plurality of seats (31,32) and a space (42) for housing respective mechanical components formed between said half-shells and delimited by a transversal structural connection element (33) of said half-shells (1a, 1b), characterized in that said half-shells (1a, 1b) and said transversal connection element (33) are made in a single piece of an advanced composite material by a vacuum-bag moulding technology.

A method is disclosed for coating a projectile for use in an ammunition cartridge. A polymer jacket is applied to an undersized projectile core of a first standard caliber to bring the outer dimensions of the jacketed projectile into compliance with those of a second, larger caliber projectile. The polymer jacket coating may produce a non-uniform outer diameter of the polymer jacketed projectile and may include a plurality of circular cavities defined therein. The polymer-jacketed projectile may be a bullet for pistol or rifle ammunition, or a pellet, or shot for use in a shotgun shell.

A sabot petal is described herein comprising a plurality of woven axial and undulated fibers angled to transfer setback loads. In some cases, the petal is a one-piece component configured to be positioned around a long rod projectile or other aerostructures or aeroshell shapes to be launched with in a gun bore, or rocket or missile launch tube. Corresponding systems and methods are also disclosed.

A method is described of making a training firearm that has a replaceable magazine. The training firearm is not an actual firearm but possesses a visual look and tactile fee of an actual firearm, to enable a user to train realistically but safely.

A hybrid pad system positioned between a missile and a launch tube is provided herein. The hybrid pad system includes an outer sheet and an inner sheet spaced from the outer sheet. A web region can be positioned between the outer sheet and the inner sheet. A restoration region can be positioned between the outer sheet and the inner sheet and tangentially offset from the web region. A support can be operably coupled with the inner sheet.

A sling pad system to be disposed between a missile and a launch tube is provided herein. The sling pad system includes an outer sheet and an inner sheet spaced from the outer sheet. A resilient structure is positioned between the outer sheet and the inner sheet. The resilient structure includes one or more structural elements operably coupled with the outer sheet at a first contact point and the inner sheet at a second contact point. A support is operably coupled with the inner sheet.

A wear resistant component for a firearm comprises a body formed of polymer infused with nanoparticles. The nanoparticles impart high hardness to the otherwise soft polymer which increases abrasion resistance to a level that at least approaches and has similar high wear characteristics as some all metal components but at a fraction of the weight and without the need for metal inserts or overlays on a polymer base. The nanoparticle may be silicon dioxide in preferred embodiments which covalently bonds to the polymer chain becoming an integrated part thereof. Various forms or shapes of nanoparticles may be used. The nanoparticles may be dispersed substantially uniformly throughout the entire component body or may be limited in extent to only the wear region and adjoining wear surface of the component. The nanoparticles may be used for injection molded or 3D printed components or in composite laminated stack structure with reinforcement fibers.

A butt plate includes a damping member which is made from resiliently flexible material and a covering which at least partially covers the damping member. The damping member is made from injectable material, which is over-injected on the covering so as to make a single member with the covering. The covering has a perimeter including at least two flaps which extend astride the damping member.