The invention relates to a kinetic and/or incapacitating projectile having high energy absorption including: a body (1) made up of at least one portion made of cellular material, foam or open or closed microstructures; a head, made of a resilient polymer material; at least one layer (3) which makes it possible to link the assembly made up of the body (1), the head (2) and optionally a rear portion by annular constriction, said layer being made of a thin material, the thickness of which is less than five hundredths of the diameter of the projectile.

The invention relates to a kinetic and/or incapacitating projectile having high energy absorption including: a body (1) made up of at least one portion made of cellular material, foam or open or closed microstructures; a head, made of a resilient polymer material; at least one layer (3) which makes it possible to link the assembly made up of the body (1), the head (2) and optionally a rear portion by annular constriction, said layer being made of a thin material, the thickness of which is less than five hundredths of the diameter of the projectile.

A projectile, such as a low ricochet, non-toxic, air gun BB, pellet or slingshot projectile, that breaks apart into small pieces or fragments when striking a hard surface, and that is lead free. A method of manufacturing the projectile of the present invention is also disclosed.

A projectile, such as a low ricochet, non-toxic, air gun BB, pellet or slingshot projectile, that breaks apart into small pieces or fragments when striking a hard surface, and that is lead free. A method of manufacturing the projectile of the present invention is also disclosed.

The present invention discloses a projectile device for the nonlethal immobilization of threats. The invention includes a plurality of grappling-type hooking assemblies attached by a flexible means to a projectile core, a means for the dispersal of the hooking assemblies on or just prior to impact on a target, and a means for ballistically deploying the device from a 12 gauge shotgun, a 35 mm flare gun, a 40 mm grenade launcher, or other suitable launching device. In particular, the hooking assemblies disperse and adhere to the target, while the flexible attachment means entangle and either limit the motion of or immobilize the target.

The invention relates to fragmenting projectiles. In order that all projectiles of a*waffe*Bug projectile type have the same point of impact, i.e., the same projectile weight, the same center of gravity and the same geometry, and that the marksman can set the fragmentation behavior solely by selecting the projectile, fragmenting projectiles having defined fragmentation in steps for the same point of impact, designed as two projectile types, namely as partially fragmenting projectiles or as jacketed projectiles, are proposed, wherein all fragmenting projectiles of a projectile type have the same projectile weight, the same center of gravity, and the same geometry, a fragmentable core is arranged in the front nose region for both projectile types, all fragmentable cores of a projectile type have the same density and differ from each other in the weight of the fragmentable core depending on the fragmentation, and all projectiles of a projectile type having the same weight of the fragmentable core have an identical marking that can be seen or felt from the outside.

A bullet with controlled fragmentation has a core in the form of a generally cylindrical body having a forward end and a rear end and intermediate side portions extending there between, the forward end of the core defining a cavity, a jacket encompassing the rear end and at least selected portions of the sides of the core, the jacket having a sidewall having a first drive band portion having a first wall thickness, and a second portion immediately forward of the drive band portion having a second thickness less than the first thickness, the exterior of the jacket defining a cannelure groove encircling the bullet, and the cannelure groove being positioned forward of the first drive band portion. The drive band may have forward edge defining a step. The bullet of the present invention may also be received in the case mouth of a rimless case and be partially protruding therefrom.

A bullet with controlled fragmentation has a core in the form of a generally cylindrical body having a forward end and a rear end and intermediate side portions extending there between, the forward end of the core defining a cavity, a jacket encompassing the rear end and at least selected portions of the sides of the core, the jacket having a sidewall having a first drive band portion having a first wall thickness, and a second portion immediately forward of the drive band portion having a second thickness less than the first thickness, the exterior of the jacket defining a cannelure groove encircling the bullet, and the cannelure groove being positioned forward of the first drive band portion. The drive band may have forward edge defining a step. The bullet of the present invention may also be received in the case mouth of a rimless case and be partially protruding therefrom.

A bullet tip comprises a body having a tail section and a nose section, the body composed of a partially sintered powdered metal, wherein the nose section comprises an ogive shape, wherein the tail section is configured for insertion into a cavity in a bullet main body, and, wherein the bullet tip is configured to fragment upon impact while exhibiting a penetration capacity of at least 800 joules.

A broadhead containing independent pivotable and retractable cutting blades configured for selective locking in a non-deployed and deployed position. The broadhead further contains a non-rotating blade configured for reciprocating movement in order to selectively lock the pivoting blades in their non-deployed and deployed positions. Impact of the broadhead with a target will cause the pivoting blades to transition from the non-deployed position to the deployed position and thereby create a larger cutting diameter.