IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
UP-0258662
(2008-10-27)
|
등록번호 |
US-7810431
(2010-11-01)
|
우선권정보 |
DE-10 2007 051 345(2007-10-26) |
발명자
/ 주소 |
- Heine, Andreas
- Wickert, Matthias
- Thoma, Klaus
|
출원인 / 주소 |
- Fraunhofer-Gesellschaft zur Förderung der Angewandten Forschung E.V.
|
대리인 / 주소 |
Antonelli, Terry, Stout & Kraus, LLP
|
인용정보 |
피인용 횟수 :
4 인용 특허 :
4 |
초록
▼
An explosive charge is disclosed which has a spatial shape comprising explosive material and, in the course of the explosion, unfolds a spatially anisotropic pressure action in at least one main action direction, in which the pressure action is greater than in the other action directions. The spatia
An explosive charge is disclosed which has a spatial shape comprising explosive material and, in the course of the explosion, unfolds a spatially anisotropic pressure action in at least one main action direction, in which the pressure action is greater than in the other action directions. The spatial shape comprising the explosive material has a surface area facing toward the at least one main action direction and extends in the at least one main action direction, particles are applied and/or a material layer disintegrating into particles during the explosion is applied to the surface area, the particles comprise a nonexplosive material, and a total mass of the particles is less than a mass of the explosive material.
대표청구항
▼
The invention claimed is: 1. An explosive charge, which has a spatial shape comprising: explosive material which in the course of an explosion, provides a pressure action in at least one main action direction in which the pressure action is greater than in other directions; and wherein the spatial
The invention claimed is: 1. An explosive charge, which has a spatial shape comprising: explosive material which in the course of an explosion, provides a pressure action in at least one main action direction in which the pressure action is greater than in other directions; and wherein the spatial shape comprises explosive material with a surface area facing toward the at least one main action direction and extending in the at least one main action direction and nanoparticles or microparticles applied to the surface area and/or a material layer applied to the surface area which disintegrates into the nanoparticles or microparticles during the explosion and the nanoparticles or microparticles propagating without the formation of a jet or projectile with a total mass of the particles being less than a total mass of the explosive material. 2. The explosive charge according to claim 1, wherein: the spatial shape of the explosive material has a hollow geometry and the surface area is concave on which the particles are applied at least sectionally and/or the material layer disintegrating into particles during the explosion is applied at least sectionally. 3. The explosive charge according to claim 1, wherein: particles are also introduced into a volume of the explosive material. 4. The explosive charge according to claim 1, wherein: the particles comprise nonmetallic material. 5. The explosive charge according to claim 1, wherein: the spatial shape of the explosive material provides at least one area at which an igniter is provided for triggering the explosion; and the location of the at least one ignition point in relation to the spatial shape and the spatial shape of the explosive material provides a material conversion of the explosive material during the explosion having a propagation velocity component oriented in the at least one main action direction which corresponds to a vapor propagation velocity propagating in the at least one main action direction along which the pressure action propagates. 6. The explosive charge according to claim 5, wherein: the explosive material comprises pentrite and a flat cone with a cone angle between 125° and 135° . 7. The explosive charge according to claim 1, wherein: the spatial shape of the explosive material is stable and no components are provided having spatial guiding effects on the explosion related to the pressure action propagating along the at least one main direction. 8. The explosive charge according to claim 7, wherein: the spatial shape is a flat cone with a tip and a flat cone funnel expanding conically in the direction of the at least one action direction, the flat cone funnel having the particles disposed therein and/or the material layer is provided on the cone funnel. 9. The explosive charge according to claim 8, wherein: the igniter is provided in an area of the tip. 10. The explosive charge according to claim 9, wherein: the spatial shape is freely accessible from a concave side and from a convex side of the flat cone. 11. The explosive charge according to claim 8, wherein: the flat cone has a wall thickness ranging from 1 mm to at least a centimeter. 12. The explosive charge according to claim 8, wherein: the flat cone encloses a cone angle which ranges between greater than 90° and less than 180° . 13. The explosive charge according to claim 1, wherein: the spatial shape is concave and expands radially relative to the at least one main action direction. 14. The explosive charge according to claim 13, wherein: the concave surface area is rotationally symmetric. 15. The explosive charge according to claim 1, wherein: the spatial shape of the explosive charge includes at least two ignition points spatially separated from one another, which are connected to an ignition triggering unit, providing triggering in a predefinable time sequence; and the at least two ignition points are attached to the explosive charge and selection of a time sequence of ignition of the at least two ignition points is determined by a desired anisotropy of the pressure action. 16. The explosive charge according to claim 15, wherein: the ignition points are in an array, which are connected by the ignition triggering unit, and are triggered in a predefinable time sequence and a spatial ignition sequence; and a location of the attachment of the ignition points to the explosive charge and/or the selection of the time sequence and/or the spatial ignition sequence for the ignition is determined by the desired anisotropy of the pressure action. 17. The explosive charge according to claim 1, wherein: the spatial shape of the explosive charge focuses or concentrates the pressure action on a spatial point, a line, or along a surface. 18. The explosive charge according to claim 1, wherein: the spatial shape comprises areas comprising different explosive materials. 19. The explosive charge according to claim 1, wherein: the particles applied to the surface area are divided into at least two particle groups each having different sizes and/or particle materials and/or the material layer applied to the surface area has at least two areas having different layer materials.
이 특허에 인용된 특허 (4)
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Davison David K. ; Johnson Richard F., Electrically activated, metal-fueled explosive device.
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Chawla Manmohan S. (Houston TX), Implosion shaped charge perforator.
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Precoul Michel (Paris FRX), Projectile charges.
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Thompson, LaMar; Ng, William; Fong, Richard, Single stage kinetic energy warhead utilizing a barrier-breaching projectile followed by a target-defeating explosively formed projectile.
이 특허를 인용한 특허 (4)
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Collier, Nicholas, Axilinear shaped charge.
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Collier, Nicholas, Revolved arc profile axisymmetric explosively formed projectile shaped charge.
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Collier, Nicholas, Swept conical-like profile axisymmetric circular linear shaped charge.
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Collier, Nicholas, Swept hemispherical profile axisymmetric circular linear shaped charge.
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