A system with a spool base frame having an initiator, an interrupter, control electronics, and a proximity sensor connected thereto, wherein the spool base frame is configured to hold a shock tube spooling mechanism, the interrupter is configured to allow installation and spooling of a spool of shock tube disposed on the shock tube spooling mechanism, the interrupter is configured to cut spooled shock tube from the spool of shock tube, the control electronics are configured to send a signal directing the interrupter to cut the spooled shock tube from the spool, the interrupter is configured to physically redirect and splice the cut shock tube to a second shock tube connected to the initiator, and the interrupter is configured to discharge the cut shock tube after the shock tube is fired and spent.

A system with a spool base frame having an initiator, an interrupter, control electronics, and a proximity sensor connected thereto, wherein the spool base frame is configured to hold a shock tube spooling mechanism, the interrupter is configured to allow installation and spooling of a spool of shock tube disposed on the shock tube spooling mechanism, the interrupter is configured to cut spooled shock tube from the spool of shock tube, the control electronics are configured to send a signal directing the interrupter to cut the spooled shock tube from the spool, the interrupter is configured to physically redirect and splice the cut shock tube to a second shock tube connected to the initiator, and the interrupter is configured to discharge the cut shock tube after the shock tube is fired and spent.

An agricultural enhancement method for removing or overcoming soil fragipan, hardpan, or other natural and/or artificial soil compaction barriers is disclosed. These barriers prevent root and/or water penetration, which inhibits agricultural development. Consequently, removing and overcoming these barriers is beneficial to the soil and to agricultural yields.

An agricultural enhancement method for removing or overcoming soil fragipan, hardpan, or other natural and/or artificial soil compaction barriers is disclosed. These barriers prevent root and/or water penetration, which inhibits agricultural development. Consequently, removing and overcoming these barriers is beneficial to the soil and to agricultural yields.

Provided is a blast-free alternative tool for breaching operations for the intended purpose of cutting metal, including rebar, steel cables, I-beams, thin walled containers, welding doors, and the like. The apparatus includes a flexible and cuttable tube containing metal oxide/metal (thermite) mixture, capable of being formed around a target material and of NONEL ignition. The apparatus can be used to cut, weld, or ignite target material. Protective caps are included with provisions to insert shock tube or time fuse to transmit ignition to first fire mix. A fire proof or flame retardant flexible outerwrap with adhesive (such as hydrogel) or malleable retention wires covers the cutting ribbon for heat and slag retention. In the preferred embodiment, the apparatus is issued/manufactured in rolls or precut lengths.

An explosive matrix assembly of the present disclosure has a single detonating cord formed into a grid, and the grid comprises a first plurality of detonating cord portions lying in a first plane and a second plurality of detonating cord portions lying in a second plane and the first plurality of detonating cord portions perpendicularly overlay the second plurality of detonating portions. Additionally, the explosive matrix assembly has at least one insensitive blasting agent coupled to the grid.

An explosive matrix assembly of the present disclosure has a single detonating cord formed into a grid, and the grid comprises a first plurality of detonating cord portions lying in a first plane and a second plurality of detonating cord portions lying in a second plane and the first plurality of detonating cord portions perpendicularly overlay the second plurality of detonating portions. Additionally, the explosive matrix assembly has at least one insensitive blasting agent coupled to the grid.

A matrix assembly having a single detonating cord. Further, the matrix assembly has a first plurality of parallel portions of detonating cord arranged in a first plane and a second plurality of parallel portions of detonating cord arranged in a second plane, wherein each one of the second plurality of parallel portions intersects only one of the first plurality of parallel portions perpendicularly. Additionally, the matrix assembly has a plurality of open loops formed by the looping of the first plurality of parallel portions and the looping of the second plurality of parallel portions such that the open loops of the first plurality of parallel portions are geometrically symmetrical with the open loops of the second plurality of parallel portions. Further, the matrix assembly has two closed loops formed at opposing corners of the matrix assembly, the closed loops arranged geometrically symmetrical and formed from one of the first plurality of parallel portions and the second plurality of parallel portions.

A matrix assembly having a single detonating cord. Further, the matrix assembly has a first plurality of parallel portions of detonating cord arranged in a first plane and a second plurality of parallel portions of detonating cord arranged in a second plane, wherein each one of the second plurality of parallel portions intersects only one of the first plurality of parallel portions perpendicularly. Additionally, the matrix assembly has a plurality of open loops formed by the looping of the first plurality of parallel portions and the looping of the second plurality of parallel portions such that the open loops of the first plurality of parallel portions are geometrically symmetrical with the open loops of the second plurality of parallel portions. Further, the matrix assembly has two closed loops formed at opposing corners of the matrix assembly, the closed loops arranged geometrically symmetrical and formed from one of the first plurality of parallel portions and the second plurality of parallel portions.

A line charge includes a thin plastic tube that is deployed by a mechanical means. The thin plastic tube is filled with an explosive material after deployment to form a line charge suitable for route clearance or demolitions.