A warhead assembly includes a penetrating casing having a forward nose portion and an generally cylindrical aft portion opposite said nose portion. A closure ring is disposed in said aft portion, a vent also being provided in said aft portion. The warhead casing is filled with a predetermined level
A warhead assembly includes a penetrating casing having a forward nose portion and an generally cylindrical aft portion opposite said nose portion. A closure ring is disposed in said aft portion, a vent also being provided in said aft portion. The warhead casing is filled with a predetermined level of explosive material. Preferably the explosive composition contain reduced amounts of explosive material and a strong oxidizer. The warhead assembly possesses superior penetration and blast performance, as well as superior Insensitive Munitions characteristics.
대표청구항▼
A warhead assembly includes a penetrating casing having a forward nose portion and an generally cylindrical aft portion opposite said nose portion. A closure ring is disposed in said aft portion, a vent also being provided in said aft portion. The warhead casing is filled with a predetermined level
A warhead assembly includes a penetrating casing having a forward nose portion and an generally cylindrical aft portion opposite said nose portion. A closure ring is disposed in said aft portion, a vent also being provided in said aft portion. The warhead casing is filled with a predetermined level of explosive material. Preferably the explosive composition contain reduced amounts of explosive material and a strong oxidizer. The warhead assembly possesses superior penetration and blast performance, as well as superior Insensitive Munitions characteristics. the saw bench, and conveying the workpiece over the saw bench; wherein by lowering the saw bench into the conveyor device the drive of the lowered conveyor roller elements is decoupled in this area. 2. The method according to claim 1, wherein the sawing device is displaced on said frame in order to position the saw before lowering the saw bench, and moving said saw to a workpiece cutting length at a reference point. 3. The method according to claim 1, wherein after the workpiece has been secured by means of said blank holder and the saw bench, the sawing device is lowered next to the conveyor device in a direction opposite to said Y direction, then is displaced through the workpiece in the X direction, thus cutting through the workpiece, and moving the saw out of the workpiece along the Y direction and then displacing said saw into a starting position by moving said saw in the X direction. 4. The method according to claim 1, including moving the sawing device into and out of the workpiece in at least one of a linear fashion and by pivoting about a pivot point. 5. The method according to claim 4, wherein the saw is radially pivoted about a pivoting point out of a horizontal position into a position which is inclined downward, before start of sawing, and then the saw is moved in a linear fashion in the X direction through the workpiece and, after the workpiece has been cut through, the saw is pivoted and at the same time moved in a direction opposite to said X direction. 6. The method according to claim 1, wherein said workpiece is cut into a plurality of part sections by means of a plurality of said sawing devices which are arranged displaceably on said frame. 7. The method according to claim 1, wherein the conveyor roller elements of the conveyor device are pivoted below the saw bench. 8. The method according to claim 1, including providing said frame with at least one portal element on which a framework element for holding the sawing device is displaced on guide rails. 9. The method according to claim 8, wherein the framework element is displaced along the portal elements on the frame in and opposite to a conveying direction of the workpiece. 10. The method according to claim 9, including at least one saw holding framework of the framework element which is transverse to the conveying direction, and displacing said saw back and forth in said X direction along a guide rail. 11. The method according to claim 10, wherein the saw is displaced in said Y direction along a guide rail. 12. The method according to claim 8, wherein the framework element is assigned guide columns which project downward and on which the saw bench together with a saw blade groove is displaced in the Y direction. 13. The method according to claim 12, wherein at least one of said guide columns is assigned at least one blank holder which is displaced in the Y direction. 5197379, 19930300, Leonard, Jr., 099/446; US-5259299, 19931100, Ferraro, 099/340; US-6173644, 20010100, Krall, 099/340
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