A modular disruption system is described. The modular disruption system can include one or more interchangeable barrel sections, each interchangeable barrel section being configured to support a different ammunition caliber. The modular disruption system can also include one or more interchangeable chamber sections, each interchangeable chamber section being configured to support a different ammunition caliber. Each interchangeable chamber section can be configured to detachably attach to each interchangeable barrel section.

A modular disruption system is described. The modular disruption system can include one or more interchangeable barrel sections, each interchangeable barrel section being configured to support a different ammunition caliber. The modular disruption system can also include one or more interchangeable chamber sections, each interchangeable chamber section being configured to support a different ammunition caliber. Each interchangeable chamber section can be configured to detachably attach to each interchangeable barrel section.

A perforating gun assembly includes a body having an axial length extending between a first axial end and a second axial end, an outer radial surface extending between the first axial end and the second axial end, and an inner bore and at least one explosive charge extending from the outer radial surface to the inner bore. The at least one explosive charge includes a charge casing and a cavity liner mounted within the charge casing. The charge casing and the cavity liner define a charge cavity there between. The at least one explosive charge further includes an explosive material retained within the charge cavity. The at least one explosive charge further includes a deactivation composition retained within the charge cavity.

A perforating gun assembly includes a body having an axial length extending between a first axial end and a second axial end, an outer radial surface extending between the first axial end and the second axial end, and an inner bore and at least one explosive charge extending from the outer radial surface to the inner bore. The at least one explosive charge includes a charge casing and a cavity liner mounted within the charge casing. The charge casing and the cavity liner define a charge cavity there between. The at least one explosive charge further includes an explosive material retained within the charge cavity. The at least one explosive charge further includes a deactivation composition retained within the charge cavity.

A mobile ordnance disposal system to dispose of unexploded ordnance in situ by cutting open the ordnance casing and subjecting the explosive material to heat in order to burn the explosive material held within the casing in a controlled manner instead of generating an explosion to effect disposal. By using the system, the operator may remain at safe, remote distance controlling the system operation.

A mobile ordnance disposal system to dispose of unexploded ordnance in situ by cutting open the ordnance casing and subjecting the explosive material to heat in order to burn the explosive material held within the casing in a controlled manner instead of generating an explosion to effect disposal. By using the system, the operator may remain at safe, remote distance controlling the system operation.

A concealed amalgamated neutralizer device covertly combines neutralizer material of inert materials such as calcium carbonate or silicates with common energetic material for the prevention of malicious use of the energetic material. The concealed amalgamated neutralizer device may vary in shape, size, and color and is therefore adaptable to varying methods of containment. The neutralizer material mimics the energetic material without detection. Upon disassembly of the concealed amalgamated neutralizer device, the neutralizer material is mixed with and neutralizes the energetic material rendering the energetic material useless. A container is provided which has a bottom section having an interior surface including a plurality of integrally formed recesses that are filled with the energetic material which allow manipulation of flash direction and intensity upon detonation.

A concealed amalgamated neutralizer device covertly combines neutralizer material of inert materials such as calcium carbonate or silicates with common energetic material for the prevention of malicious use of the energetic material. The concealed amalgamated neutralizer device may vary in shape, size, and color and is therefore adaptable to varying methods of containment. The neutralizer material mimics the energetic material without detection. Upon disassembly of the concealed amalgamated neutralizer device, the neutralizer material is mixed with and neutralizes the energetic material rendering the energetic material useless. A container is provided which has a bottom section having an interior surface including a plurality of integrally formed recesses that are filled with the energetic material which allow manipulation of flash direction and intensity upon detonation.

A firing stand (30) for mounting a plurality of shaped charges. The firing stand (30) can be configured by a user between a transport configuration in which shaped charges are stored for transport, and at least a first firing configuration from which shaped charges can be deployed. Inter-connected rotating panels (31) may be used to provide user configurability to the firing stand (30), with shaped charges optionally being mounted in panel apertures (36). The firing stand provides for rapid and configurable deployment of multiple shaped charges.

A firing stand (30) for mounting a plurality of shaped charges. The firing stand (30) can be configured by a user between a transport configuration in which shaped charges are stored for transport, and at least a first firing configuration from which shaped charges can be deployed. Inter-connected rotating panels (31) may be used to provide user configurability to the firing stand (30), with shaped charges optionally being mounted in panel apertures (36). The firing stand provides for rapid and configurable deployment of multiple shaped charges.