Methods and devices metering and compacting explosive powders

1 - 18 . (canceled) 19 . A powder compaction device, comprising: a drive motor operably connected to a compaction rod, the compaction rod being movable through a loading platform to a cartridge holding platform; a powder loading station configured to hold a predetermined volume of propellant powder and positioned below the loading platform and above the cartridge holding platform, wherein the compaction rod is movable through the powder loading station and configured to receive the predetermined volume of propellant powder into one or more reliefs defined in the compaction rod as the compaction rod moves through the powder loading station to the cartridge holding platform; the cartridge holding platform removably holding a cartridge fixture having a hollow interior chamber configured to receive an ammunition cartridge and a funnel defined at an upper portion of the cartridge fixture, the funnel opening into the hollow interior chamber; wherein the one or more reliefs releases the loaded propellant powder into the funnel to be funneled into the hollow interior chamber after the compaction rod passes through the powder loading station; and wherein the compaction rod is configured to compact the propellant powder in the hollow interior chamber of the cartridge fixture. 20 . The powder compaction device of claim 19 , wherein the powder loading station has a funnel defined at an upper surface of the powder loading station. 21 . The powder compaction device of claim 19 , further comprising a remote powder reservoir connected to the powder loading station by a transport conduit. 22 . The powder compaction device of claim 21 , wherein the remote powder reservoir further comprises a powder gate positioned between the powder reservoir and the transport conduit, wherein the powder gate controls the flow of powder from the powder reservoir through the transport conduit to the powder loading station. 23 . The powder compaction device of claim 22 , further comprising a controller operably connected to the powder gate, the controller being configured to control the amount of powder released from the powder reservoir to be delivered through the transport conduit to the powder loading station by opening and closing the powder gate. 24 . The powder compaction device of claim 23 , further comprising one or more sensors in the powder loading station and operably connected to the controller, the one or more sensors being configured to sense a critical volume of propellant powder, which is greater than the predetermined volume of propellant powder, in the powder loading station and to maintain the critical volume of propellant powder by sending a signal to the controller to open the powder gate when a threshold volume is sensed, the threshold volume being less than the predetermined volume of propellant powder. 25 . The powder compaction device of claim 19 , further comprising a controller operably connected to the drive motor and configured to control the vertical movement of the compaction rod. 26 . The powder compaction device of claim 25 , further comprising one or more sensors on the compaction rod and in communication with the controller, wherein the one or more sensors are configured to sense the vertical distance of movement of the compaction rod and communicate the distance sensed to the controller. 27 . The powder compaction device of claim 25 , further comprising one or more sensors on the compaction rod and in communication with the controller, wherein the one or more sensors are configured to control force of the downward pressure exerted by the compaction rod. 28 . The powder compaction device of claim 25 , wherein the controller is configured to control the degree of compaction of powder in the ammunition cartridge by controlling the vertical distance the compaction rod moves and the downward force exerted by the compaction rod during movement. 29 . The powder compaction device of claim 19 , wherein the cartridge holding platform further comprises a lower groove configured to slidingly receive a corresponding lower tongue on the cartridge fixture. 30 . The powder compaction device of claim 19 , wherein the compaction rod further comprises a compaction rod tip. 31 . The powder compaction device of claim 30 , wherein the compaction rod tip is removable. 32 . The powder compaction device of claim 30 , wherein the shape of the compaction rod tip is selected from a group consisting of: concave, convex, and flat. 33 . The powder compaction device of claim 19 , wherein the interior hollow chamber of the cartridge fixture is configured to substantially match the outer dimensions of the ammunition cartridge. 34 . The powder compaction device of claim 33 , wherein the interior hollow chamber of the cartridge fixture is configured to receive a standard dimensioned ammunition cartridge selected from a group of ammunition cartridge calibers consisting of 0.223, 0.243, 0.245, 0.25-06, 0.270, 0.277, 0.300, 0.308, 0.338, 0.30-30, 0.30-06, 45-70 or 0.50-90, 50 caliber, 45 caliber, 380 caliber or 38 caliber, 5.56 mm, 6 mm, 6.5 mm, 6.8 mm, 7 mm, 7.62 mm, 8 mm, 9 mm, 10 mm, 12.7 mm, 14.5 mm, 14.7 mm, 20 mm, 25 mm, 30 mm, 40 mm, 57 mm, 60 mm, 75 mm, 76 mm, 81 mm, 90 mm, 100 mm, 105 mm, 106 mm, 115 mm, 120 mm, 122 mm, 125 mm, 130 mm, 152 mm, 155 mm, 165 mm, 175 mm, 203 mm or 460 mm, 4.2 inch and 8 inch ammunition cartridge. 35 . The powder compaction device of claim 19 , wherein the compaction rod has a diameter substantially equal to the standard diameter of a proj ectile aperture in the ammunition cartridge, wherein the ammunition cartridge has standard dimensions for the specific caliber of ammunition. 36 . The powder compaction device of claim 19 , wherein the loading platform, the powder loading station and the cartridge holding platform are concentrically aligned about a longitudinal axis of the compaction rod such that the cartridge fixture receives the compaction rod substantially through a center point of the funnel opening into the hollow interior chamber. 37 . A powder compaction device, comprising: a controller in communication with a drive motor operably connected to a compaction rod, the compaction rod being movable through a loading platform to a cartridge holding platform positioned below the loading platform, wherein the controller is configured to control the vertical movement and downward force exerted by the compaction rod; a powder loading station positioned below the loading platform and above the cartridge holding platform, wherein the controller moves the compaction rod through the powder loading station which holds a predetermined volume of propellant powder, the powder loading station being configured to load the predetermined volume of propellant powder into one or more reliefs defined in the compaction rod as the compaction rod moves through the powder loading station; the cartridge holding platform removably holding a cartridge fixture having a hollow interior chamber configured to receive an ammunition cartridge, the cartridge fixture having a funnel defined at an upper portion of the cartridge fixture and opening into the hollow interior chamber; wherein the propellant powder loaded into the one or more reliefs of the compaction rod is released into the funnel to be funneled into the hollow interior chamber after the compaction rod passes through the powder loading station; wherein the compaction rod is configured to compact the propellant powder in the hollow interior chamber of the cartridge fixtur