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An explosive breaching device is made from a surplus bomblet. The bomblet includes a shaped-charge liner, a steel fragmentation case with an open end, explosive material disposed between the shaped-charge liner and the steel fragmentation case, and a fuze. The fuze of the bomblet is removed and a sh

An explosive breaching device is made from a surplus bomblet. The bomblet includes a shaped-charge liner, a steel fragmentation case with an open end, explosive material disposed between the shaped-charge liner and the steel fragmentation case, and a fuze. The fuze of the bomblet is removed and a shock-attenuating case is fixed adjacent to and coaxial with the steel fragmentation case. The shock-attenuating case may be made of a material having a speed of sound that differs from the speed of sound in the steel fragmentation case. A mild steel housing is fixed around the shock-attenuating case. A retaining sleeve may be fixed to the mild steel housing. The explosive breaching device may be mounted in an aiming device to direct the shaped-charge jet in a desired direction.

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1. An explosive breaching device with a central longitudinal axis, comprising: a generally cylindrical, steel fragmentation case having an open end and centered on the central longitudinal axis;a conical shape-charged liner disposed in the steel fragmentation case and defining a generally conical em

1. An explosive breaching device with a central longitudinal axis, comprising: a generally cylindrical, steel fragmentation case having an open end and centered on the central longitudinal axis;a conical shape-charged liner disposed in the steel fragmentation case and defining a generally conical empty volume centered on the central longitudinal axis;an explosive disposed in the steel fragmentation case contiguous with a surface of the conical liner that is opposite the generally conical empty volume;a shock attenuating case disposed adjacent to and coaxial with the steel fragmentation case, the shock-attenuating case being made of a material having a speed of sound that differs from a speed of sound in the steel fragmentation case, the shock attenuating case having an open end at a same end as the steel fragmentation case;a mild steel housing surrounding, coaxial with and generally contiguous with the shock-attenuating case, the mild steel housing have an open end at a same end as the steel fragmentation case;a bore formed in base portions of each of the steel fragmentation case, the shock-attenuating case and the mild steel housing distal their respective open ends, the bore being coaxial with the central longitudinal axis;an explosive train disposed in the bore for detonating the explosive in the steel fragmentation case; andwherein the shock-attenuating case includes a side portion in the shape of a sleeve, the side portion having a plurality of through holes formed therein wherein a central longitudinal axis of each through hole is parallel to the central longitudinal axis of the explosive breaching device. 2. The explosive breaching device of claim 1, wherein the base portion of the shock attenuating case is in the shape of a disc, the base portion including a plurality of through holes formed therein wherein a central longitudinal axis of each through hole in the base portion lies in a plane that is normal to the central longitudinal axis of the explosive breaching device. 3. The explosive breaching device of claim 2, wherein the base portion and the side portion of the shock-attenuating case are made of copper. 4. The explosive breaching device of claim 1 wherein the explosive train includes a blasting cap disposed in the bore. 5. The explosive breaching device of claim 1, further comprising a retaining sleeve concentrically fixed to the mild steel housing, the retaining sleeve including a first pair of pins on one side of the retaining sleeve and a second pair of pins on an opposite side of the retaining sleeve. 6. The explosive breaching device of claim 5, further comprising an aiming device, the aiming device including a pair of opposed planar sides with an arcuate pin slot and a pin opening formed in each opposed side, the first pair of pins being disposed in the arcuate pin slot and the pin opening on one of the opposed sides and the second pair of pins being disposed in the arcuate pin slot and the pin opening on the other of the opposed sides. 7. The explosive breaching device of claim 6, further comprising fasteners for fixing the first and second pairs of pins to the aiming device. 8. A method of converting a bomblet into an explosive breaching device, comprising: providing the bomblet, the bomblet including a fuze, a shaped-charge liner, a steel fragmentation case with an open end, and explosive material disposed between the shaped-charge liner and the steel fragmentation case;removing the fuze from the bomblet;attaching a shock-attenuating case adjacent to and coaxial with the steel fragmentation case, the shock attenuating case being made of a material having a speed of sound that differs from a speed of sound in the steel fragmentation case, the shock-attenuating case having an open end at a same end as the steel fragmentation case;attaching a mild steel housing around the shock-attenuating case, the mild steel housing having an open end at a same end as the steel fragmentation case;concentrically fixing a retaining sleeve to the mild steel housing;placing a second explosive material in a central bore formed in the mild steel housing; andwherein the retaining sleeve includes a first pair of pins on one side of the retaining sleeve and a second pair of pins on an opposite side of the retaining sleeve. 9. The method of claim 8 further comprising providing an aiming device and mounting the explosive breaching device in the aiming device. 10. The method of claim 8, wherein providing an aiming device includes providing an aiming device having a pair of opposed sides with an arcuate pin slot and a pin opening formed in each opposed side. 11. The method of claim 10, wherein mounting the explosive breaching device in the aiming device includes inserting the first pair of pins in the arcuate pin slot and the pin opening on one of the opposed sides and inserting the second pair of pins in the arcuate pin slot and the pin opening on the other of the opposed sides.