Abstract: A system can include multiple explosive assemblies, each assembly comprising an outer housing, an explosive component rotatable relative to the housing, and a selective firing module which causes detonation of the component in response to a predetermined signal. A method can include assembling multiple explosive assemblies at a location remote from a well, installing a selective firing module, an electrical detonator and an explosive component in a connector, and connecting the connector to an outer housing, and then transporting the assemblies from the remote location to the well. A well perforating method can include assembling multiple perforating guns, each gun comprising a gun body, a perforating charge, and a selective firing module which causes detonation of the charge in response to a predetermined signal. The guns are installed in a wellbore, with the charge of each gun rotating relative to the respective gun body.

Abstract: A system can include multiple explosive assemblies, each assembly comprising an outer housing, an explosive component rotatable relative to the housing, and a selective firing module which causes detonation of the component in response to a predetermined signal. A method can include assembling multiple explosive assemblies at a location remote from a well, installing a selective firing module, an electrical detonator and an explosive component in a connector, and connecting the connector to an outer housing, and then transporting the assemblies from the remote location to the well. A well perforating method can include assembling multiple perforating guns, each gun comprising a gun body, a perforating charge, and a selective firing module which causes detonation of the charge in response to a predetermined signal. The guns are installed in a wellbore, with the charge of each gun rotating relative to the respective gun body.

Abstract: An improved olecranon fracture repair device and system. The device includes standoffs to minimize compression of a patient's triceps muscle and tendon. A buttress plate curved to approximate the olecranon process radius accepts a plurality of fixation screws is sized such that the distal end of the plate extends forward of the triceps tendon fibro-osseous junction. The system includes an installation tool having a positioning plate with a moveable member. The positioning plate serves as a stabilizing device, a medullary cavity penetration drill template, and a fixture for guiding the intramedullary rods into the cavities. The moveable member allows for removal of the tool following partial insertion of the repair device intramedullary rods.

Abstract: An improved olecranon fracture repair device and system. The device includes standoffs to minimize compression of a patient's triceps muscle and tendon. A buttress plate curved to approximate the olecranon process radius accepts a plurality of fixation screws is sized such that the distal end of the plate extends forward of the triceps tendon fibro-osseous junction. The system includes an installation tool having a positioning plate with a movable member. The positioning plate serves as a stabilizing device, a medullary cavity penetration drill template, and a fixture for guiding the intramedullary pins into the cavities. The movable member allows for removal of the tool following partial insertion of the repair device intramedullary pins.

Abstract: A system can include multiple explosive assemblies, each assembly comprising an outer housing, an explosive component rotatable relative to the housing, and a selective firing module which causes detonation of the component in response to a predetermined signal. A method can include assembling multiple explosive assemblies at a location remote from a well, installing a selective firing module, an electrical detonator and an explosive component in a connector, and connecting the connector to an outer housing, and then transporting the assemblies from the remote location to the well. A well perforating method can include assembling multiple perforating guns, each gun comprising a gun body, a perforating charge, and a selective firing module which causes detonation of the charge in response to a predetermined signal. The guns are installed in a wellbore, with the charge of each gun rotating relative to the respective gun body.