A device for an avalanche triggering system adapted to cooperate with a blasting chamber and including a support frame adapted to be detachably mounted on the blasting chamber, a diffusion chamber, partially delimiting an inner mixing cavity in which is housed a gas mixer configured to produce a gas mixture, the diffusion chamber further having a diffusion opening configured to allow the passage of the gas mixture to the outside of the diffusion chamber, and an ignition system configured to trigger an explosion of the gas mixture, where the diffusion chamber allows placing the device in an operating position configuration in which the device rests, by gravity, on the blasting chamber.

A device for an avalanche triggering system adapted to cooperate with a blasting chamber and including a support frame adapted to be detachably mounted on the blasting chamber, a diffusion chamber, partially delimiting an inner mixing cavity in which is housed a gas mixer configured to produce a gas mixture, the diffusion chamber further having a diffusion opening configured to allow the passage of the gas mixture to the outside of the diffusion chamber, and an ignition system configured to trigger an explosion of the gas mixture, where the diffusion chamber allows placing the device in an operating position configuration in which the device rests, by gravity, on the blasting chamber.

This disclosure provides a stackable propellant module for use inside of a gas generation canister. The modules are designed to enable them to be individually fired rather than as a unitary mass, as done in conventional configurations. This enables the generation of a controlled pressure profile rather than an uncontrolled pressure profile determined by the environmental conditions downhole, such as temperature and pressure.

Explosive devices may be formed from hollow members filled with explosive materials. The hollow members may be made of mating halves that are packed or loaded with explosive material prior to the mating halves being joined together. In some exemplary aspects, the hollow members are placed in fluid-filled containers such that the explosive reaction creates a wave of fluid that impacts a target. Components of the devices may be COTS items and items that may be manufacture with 3D printers.

Explosive devices may be formed from hollow members filled with explosive materials. The hollow members may be made of mating halves that are packed or loaded with explosive material prior to the mating halves being joined together. In some exemplary aspects, the hollow members are placed in fluid-filled containers such that the explosive reaction creates a wave of fluid that impacts a target. Components of the devices may be COTS items and items that may be manufacture with 3D printers.

A tool (1) for manipulating a target (12) with combustion products from a propellant has a housing (2) including at least one outlet (5) for combustion products from at least one propellant source (16) contained within. An ignition mechanism (18) is provided for igniting propellant at the propellant source. The outlet (5) includes a plurality of exit ports (6, 8) on a surface of the tool that is configured to direct combustion products at a target. The plurality of exit ports includes a principal exit port (6) and one or more secondary exit ports (8). The secondary exit port (8) or ports are spaced apart from and at least partly surround the principal exit port (6). A method for manipulating a target with the tool is provided.

The present disclosure relates to a blasting system, the blasting system including: a drilling device configured to form blasting holes on a blasting target on the basis of a blasting design map; a charging device configured to place explosives in the blasting holes; detonators configured to detonate the explosives; a central control unit configured to confirm a position of a worker in real time, the worker driving the detonators; and a worker terminal configured to transmit worker position information to the central control unit, the worker position information indicating the worker position. The blasting system of the present disclosure can automatically connect the detonator to the central control unit, and improve worker convenience of the blasting work.

The disclosure relates to embodiments of an explosive formulation comprising a detonable mixture of an oxidizing agent such as carbon dioxide, and a material that decomposes the oxidizing agent exothermically (a reducing agent), and additives that increase the mixture's shock sensitivity. The formulations may be used in a method to produce diamonds or nano oxides or in other applications that use traditional explosives such as, but not limited to: ammonium nitrate and fuel oil combinations (ANFO), watergel explosives, emulsion explosives and RDX.

The disclosure relates to embodiments of an explosive formulation comprising a detonable mixture of an oxidizing agent such as carbon dioxide, and a material that decomposes the oxidizing agent exothermically (a reducing agent), and additives that increase the mixture's shock sensitivity. The formulations may be used in a method to produce diamonds or nano oxides or in other applications that use traditional explosives such as, but not limited to: ammonium nitrate and fuel oil combinations (ANFO), watergel explosives, emulsion explosives and RDX.

A transportable explosion chamber and method of operation for containing, controlling and suppressing explosive detonations, including the explosion surface hardening of impact-hardenable rail components. The apparatus comprises an elongate cylindrical steel containment vessel having an access door for introducing workpieces and a vent door for discharging explosion products. Both doors extend convexly into the vessel to facilitate the dissipation of explosion shock waves. Orificed vent pipes penetrate the vessel walls to controllably release explosion products into one or more exhaust manifolds. The vessel is surrounded and enclosed by steel skins supported by spaced octagonal steel support ribs fabricated by welding from interlocking elements. The hollows formed between the containment vessel and steel skins are filled with granular shock-damping silica sand which is introduced through filler openings at the top of the apparatus. To lighten the apparatus for transport, the shock-damping material may be drained through dump valves beneath the apparatus.