The present invention provides a projectile device and a method of manufacture of a projectile device and in particular to a pistol bullet and a rifle bullet and method of manufacture of the same. In one embodiment, the projectile apparatus has a cylindrical body portion having a diameter, a front nose section tapering from a most proximal point of the projectile to the cylindrical body portion, and a rear tail section connected to the body portion and extending to the most distal point of the projectile, in which the front nose portion comprises a plurality of twisting depressions forming troughs.

A bumper for preventing a forward portion of an electrode from penetrating a target comprises a rearward portion and an expandable portion. The rearward portion is configured to couple the bumper to a forward portion of an electrode. The expandable portion may comprise a plurality of members. The expandable portion is configured to transition from a collapsed state to an expanded state after being launched toward a target. The expanded state comprises a greater contact area than the contact area of the collapsed state. The greater contact area of the expanded state is configured to distribute a force of impact on the target to prevent penetration into the target. The transition from the collapsed state to the expanded state may be configured to increase a duration of impact with the target, thereby reducing a force of impact on the target to prevent penetration into the target.

A non-lethal projectile comprises a rear portion in the form of a cylinder (2) coupled to at least two symmetrical petal-like impact elements (1) which are capable of opening upon leaving a bore and are designed to form, in a closed configuration, a cylinder having an outside diameter equal to the diameter of the cylindrical rear portion and also having an axial cylindrical opening which transitions into an axial opening in the cylindrical rear portion of the projectile. The petal-like elements have an asymmetrical cross section and an inner conical groove, the base of which is disposed at the rear portion-end of the projectile, wherein, in the front portion, each petal-like element has a unidirectional relief.

A projectile comprising a central slug axially circumscribed by a segmented cylindrical sleeve having a plurality of fragmenting segments and a base that opens into an interior cavity. A flange may circumscribe the base. A wad may fill the interior cavity, remaining attached to the central slug. The wad travels with projectile to set a geometric center behind the center of gravity of the projectile. A radially-segmented cylindrical sleeve receives the central slug. The cylindrical sleeve comprises inwardly sloping segments for funneling target material into the recess between the slug and cylindrical sleeve. The segments bend outwardly upon impact and are adapted to bend, compress or flex inwardly to pass through a muzzle choke.

Techniques and architecture are disclosed for a nose insert for use in a projectile. The nose insert includes a polymer nose element and a metal cap. The polymer nose element includes a rear shank portion and a tapered head portion. Disposed onto the tapered head portion of the polymer nose is the metal cap. The metal includes an outer curved portion that terminates at a forward end in a meplat. In some embodiments, the metal cap prevents deformation of the polymer nose element caused by high stagnation temperatures experienced by the projectile during flight. In some other embodiments, the metal cap includes a locking ridge. The locking ridge is disposed on an inner surface of the metal cap component and interfaces with an outer surface of the tapered head portion of the polymer nose element.

Techniques and architecture are disclosed for a nose insert for use in a projectile. The nose insert includes a polymer nose element and a metal cap. The polymer nose element includes a rear shank portion and a tapered head portion. Disposed onto the tapered head portion of the polymer nose is the metal cap. The metal includes an outer curved portion that terminates at a forward end in a meplat. In some embodiments, the metal cap prevents deformation of the polymer nose element caused by high stagnation temperatures experienced by the projectile during flight. In some other embodiments, the metal cap includes a locking ridge. The locking ridge is disposed on an inner surface of the metal cap component and interfaces with an outer surface of the tapered head portion of the polymer nose element.

A non-jacketed bullet including a monolithic sintered body and a sintered projectile tip. The monolithic sintered body includes a base portion and a deformed hollow nose portion, and the sintered projectile tip includes a base portion and a nose portion. A portion of the sintered projectile tip extends into the deformed hollow nose portion of the monolithic sintered body and a portion of the sintered projectile tip extends from a distal end of the deformed hollow nose portion of the monolithic sintered body. Also, a method of manufacturing a non-jacketed bullet including providing a monolithic sintered body including a base portion and a hollow peripheral portion providing a sintered projectile tip, inserting a portion of the sintered projectile tip into the hollow portion of the monolithic sintered body, and forming the hollow peripheral portion into the shape of a hollow tapered nose.

A non-jacketed bullet including a monolithic sintered body and a sintered projectile tip. The monolithic sintered body includes a base portion and a deformed hollow nose portion, and the sintered projectile tip includes a base portion and a nose portion. A portion of the sintered projectile tip extends into the deformed hollow nose portion of the monolithic sintered body and a portion of the sintered projectile tip extends from a distal end of the deformed hollow nose portion of the monolithic sintered body. Also, a method of manufacturing a non-jacketed bullet including providing a monolithic sintered body including a base portion and a hollow peripheral portion providing a sintered projectile tip, inserting a portion of the sintered projectile tip into the hollow portion of the monolithic sintered body, and forming the hollow peripheral portion into the shape of a hollow tapered nose.

Techniques and devices are disclosed for a nose insert and a projectile that include a polymer nose element and a metal tip. The polymer nose element includes a tapered head portion and a first shank portion attached to the tapered head portion. The tapered head portion includes a cavity disposed therein. The first shank portion includes a first diameter smaller than a width of the tapered head portion adjacent to the first shank portion. The metal tip disposed in the tapered head portion of the polymer nose element and includes a tapered end and a second shank portion attached to the tapered end. The second shank portion having a second diameter smaller than a width of the tapered end adjacent to the second shank portion. The second shank portion being received in the cavity within the tapered head portion of the polymer nose element.

Techniques and devices are disclosed for a nose insert and a projectile that include a polymer nose element and a metal tip. The polymer nose element includes a tapered head portion and a first shank portion attached to the tapered head portion. The tapered head portion includes a cavity disposed therein. The first shank portion includes a first diameter smaller than a width of the tapered head portion adjacent to the first shank portion. The metal tip disposed in the tapered head portion of the polymer nose element and includes a tapered end and a second shank portion attached to the tapered end. The second shank portion having a second diameter smaller than a width of the tapered end adjacent to the second shank portion. The second shank portion being received in the cavity within the tapered head portion of the polymer nose element.