Abstract: An explosive composition can be produced by dissolving RDX in a volume of a first solvent to form a first solution, and adding a second solvent to the first solution. The second solvent is miscible with the first solvent, but RDX is soluble in the second solvent to an extent no greater than 1 g RDX/100 g of the second solvent. Precipitated RDX crystals can be recovered. The RDX crystals can have a crystal density of less than 1.80 g/cm3.

Abstract: An apparatus for reducing the post-detonation pressure of a perforating gun, the apparatus including a perforating gun carrying at least one explosive charge, wherein when the explosive charge is detonated the explosive charge produces a pressurized detonation gas, and a mechanism for reducing the pressure of the detonation gas proximate the perforating gun. The detonation gas pressure is desirably reduced in a time frame sufficient to create a dynamic underbalance condition to facilitate a surge flow of fluid from a reservoir into a wellbore. The pressure reduction mechanism may include singularly or in combination a heat sink to reduce the temperature of the detonation gas, a reactant to recombine with the reactant gas and reduce the molar density of the detonation gas, and a physical compression mechanism to utilize the waste energy of the detonation gas to create work, simultaneously reducing the temperature of the gas and the molar density of the detonation gas.

Abstract: Various propellant assemblies are disclosed herein for use in fracturing formations in well operations.

Abstract: The present invention provides high temperature explosive binders. More specifically, the present invention provides thermally stable polymeric binders for use in pressed explosives and suitable for environments such as the oilfield environment.

Abstract: An apparatus for reducing the post-detonation pressure of a perforating gun, the apparatus including a perforating gun carrying at least one explosive charge, wherein when the explosive charge is detonated the explosive charge produces a pressurized detonation gas, and a mechanism for reducing the pressure of the detonation gas proximate the perforating gun. The detonation gas pressure is desirably reduced in a time frame sufficient to create a dynamic underbalance condition to facilitate a surge flow of fluid from a reservoir into a wellbore. The pressure reduction mechanism may include singularly or in combination a heat sink to reduce the temperature of the detonation gas, a reactant to recombine with the reactant gas and reduce the molar density of the detonation gas, and a physical compression mechanism to utilize the waste energy of the detonation gas to create work, simultaneously reducing the temperature of the gas and the molar density of the detonation gas.

Abstract: The present invention provides an anti-hijacking system. In one embodiment, the anti-hijacking system is used in an airplane to provide forceful contact to disarm, disable, immobilize or otherwise incapacitate a hostile intruder who has entered the cockpit. The anti-hijacking system includes one or more inflation devices, such as deployable air bags.

Abstract: The present invention provides an anti-hijacking system. In one embodiment, the anti-hijacking system is used in an airplane to provide forceful contact to disarm, disable, immobilize or otherwise incapacitate a hostile intruder who has entered the cockpit. The anti-hijacking system includes one or more inflation devices, such as deployable air bags.

Abstract: The present invention provides high temperature explosive binders. More specifically, the present invention provides thermally stable polymeric binders for use in pressed explosives and suitable for environments such as the oilfield environment.

Abstract: The present invention provides an anti-hijacking system. In one embodiment, the anti-hijacking system is used in an airplane cockpit to provide forceful contact to disarm, disable, immobilize or otherwise incapacitate a hostile intruder who has entered the cockpit. The anti-hijacking system includes one or more inflation devices, such as deployable air bags.

Abstract: The present invention provides an anti-hijacking system. In one embodiment, the anti-hijacking system is used in an airplane cockpit to provide forceful contact to disarm, disable, immobilize or otherwise incapacitate a hostile intruder who has entered the cockpit. The anti-hijacking system includes one or more inflation devices, such as deployable air bags.

Abstract: Solutions and process are described useful to produce coated HE powder granules in an aqueous slurry agglomeration process. A reaction mixture is made utilizing a lacquer stock solution comprising a binder material dissolved in a substantially aqueous-immiscible organic lacquer solvent, and an aqueous HE powder slurry solution comprising a non-aqueous soluble HE powder and an at least partially aqueous-miscible organic co-solvent. The co-solvent acts as an entrainer and improves the immiscible of the lacquer solvent in the water phase of the aqueous HE powder slurry solution, resulting in formation of HE powder agglomerates that remain stable as the solvents are removed from the reaction mixture during the agglomeration process. Further, the process is adjustable to substantially eliminate organic solvent contamination of the waste water stream.

Abstract: Solutions and process are described useful to produce coated HE powder granules in an aqueous slurry agglomeration process. A reaction mixture is made utilizing a lacquer stock solution comprising a binder material dissolved in a substantially aqueous-immiscible organic lacquer solvent, and an aqueous HE powder slurry solution comprising a non-aqueous soluble HE powder and an at least partially aqueous-miscible organic co-solvent. The co-solvent acts as an entrainer and improves the immiscible of the lacquer solvent in the water phase of the aqueous HE powder slurry solution, resulting in formation of HE powder agglomerates that remain stable as the solvents are removed from the reaction mixture during the agglomeration process. Further, the process is adjustable to substantially eliminate organic solvent contamination of the waste water stream.

Abstract: The present invention provides a debris free perforating system. In one embodiment, the debris free perforating system includes a caseless shaped charge carried by a solid loading tube, such as Styrofoam™ or paper. The loading tube can additionally be combustible and can be coated with an oxidizer to ensure incineration.

Abstract: The present invention provides explosive compositions adapted for use in downhole well applications requiring high temperature explosives that may be exposed to elevated temperatures for extended periods of time.

Abstract: The present invention provides a method and apparatus for providing zero-defect pressed articles with minimal, remote operator intervention. The apparatus includes a programmable logic controller, controlling a powder feeder portion having a dump bucket which is weighed by an electronic scale. Desired weights of powder in the dump bucket are dumped to a first location and conveyed to the press. Non-desired weights of powder in the dump bucket are dumped to a second location and may be recycled. The invention provides for precise weighing of powder and avoids waste of powder in the event of improper powder dispensing and provides for complete automatic logging of production and testing data, and rejection of defective articles, avoiding the need to manually test each produced article. This method and apparatus are particularly useful in the pressing of energetic materials into pellets or casings, where manual operations are restricted for safety reasons.