A dissolvable glass projectile for a firearm is molded from dissolvable glass for the ammunitions and firearms industry. The dissolvable glass projectile may be molded into different sizes or geometry based on firearm and user preference. A mixture of chemicals components are heated and melted and then poured into a mold and is allowed to cool to a solid that can be handled.

A system includes a stress-engineered substrate comprising at least one tensile stress layer having a residual tensile stress and at least one compressive stress layer having a residual compressive stress. The at least one tensile layer and the at least one compressive layer are coupled such that the at least one tensile stress layer and the at least one compressive stress layer are self-equilibrating. At least one functional device is disposed on the stress-engineered substrate. The stress-engineered substrate is configured to fracture in response to energy applied to the substrate. Fracturing the stress-engineered substrate also fractures the functional device. The system includes at least one decoy device. Fragments of the decoy device are configured to obscure one or more physical characteristics of the functional device and/or one or more functional characteristics of the functional device after the functional device is fractured.

A dissolvable glass projectile for a firearm is molded from dissolvable glass for the ammunitions and firearms industry. The dissolvable glass projectile may be molded into different sizes or geometry based on firearm and user preference. A mixture of chemicals components are heated and melted and then poured into a mold and is allowed to cool to a solid that can be handled.

A system includes a stress-engineered substrate comprising at least one tensile stress layer having a residual tensile stress and at least one compressive stress layer having a residual compressive stress. The at least one tensile layer and the at least one compressive layer are coupled such that the at least one tensile stress layer and the at least one compressive stress layer are self-equilibrating. At least one functional device is disposed on the stress-engineered substrate. The stress-engineered substrate is configured to fracture in response to energy applied to the substrate. Fracturing the stress-engineered substrate also fractures the functional device. The system includes at least one decoy device. Fragments of the decoy device are configured to obscure one or more physical characteristics of the functional device and/or one or more functional characteristics of the functional device after the functional device is fractured.

A dissolvable glass projectile for a firearm is molded from dissolvable glass for the ammunitions and firearms industry. The dissolvable glass projectile may be molded into different sizes or geometry based on firearm and user preference. A mixture of chemicals components are heated and melted and then poured into a mold and is allowed to cool to a solid that can be handled.

A dissolvable glass projectile for a firearm is molded from dissolvable glass for the ammunitions and firearms industry. The dissolvable glass projectile may be molded into different sizes or geometry based on firearm and user preference. A mixture of chemicals components are heated and melted and then poured into a mold and is allowed to cool to a solid that can be handled.

A dissolvable glass projectile for a firearm is molded from dissolvable glass for the ammunitions and firearms industry. The dissolvable glass projectile may be molded into different sizes or geometry based on firearm and user preference. A mixture of chemicals components are heated and melted and then poured into a mold and is allowed to cool to a solid that can be handled.

A dissolvable glass projectile for a firearm is molded from dissolvable glass for the ammunitions and firearms industry. The dissolvable glass projectile may be molded into different sizes or geometry based on firearm and user preference. A mixture of chemicals components are heated and melted and then poured into a mold and is allowed to cool to a solid that can be handled.