Reactive conductors for increased efficiency of exploding foil initiators and other detonators
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F42B-003/12
F42B-003/13
F42B-003/18
출원번호
US-0685884
(2012-11-27)
등록번호
US-9021954
(2015-05-05)
발명자
/ 주소
Morris, Christopher J.
Wilkins, Paul
May, Chadd
Zakar, Eugene
출원인 / 주소
The United States of America as represented by the Secretary of the Army
대리인 / 주소
Kalb, Alan I.
인용정보
피인용 횟수 :
1인용 특허 :
10
초록▼
Provided among other things are reactive energetic material systems used for conductors in detonators for increased efficiencies. According to an embodiment, a detonator may include: a conductor including at least two constituents including (i) an electrically conductive constituent, and (ii) an ele
Provided among other things are reactive energetic material systems used for conductors in detonators for increased efficiencies. According to an embodiment, a detonator may include: a conductor including at least two constituents including (i) an electrically conductive constituent, and (ii) an electrically non-conductive constituent, that when subjected to sufficient electrical energy, result in an exothermic reaction; and a flyer plate having a non-conductive surface in contact with said conductor. When the sufficient electrical energy is supplied to said conductor, rapid heating and vaporization of at least a portion of the conductor occurs so as to explosively drive at least a portion of the flyer plate away from said conductor. In an embodiment, a multilayer conductor may be formed of alternating layers of at least one electrically conductive layer, and at least one electrically non-conductive layer, that when subjected to sufficient electrical energy, result in an exothermic reaction.
대표청구항▼
1. A detonator comprising: a substrate composed of electrical insulator material;a conductor disposed on the substrate including at least two constituents including (i) an electrically conductive constituent, and (ii) an electrically non-conductive constituent, that when subjected to sufficient elec
1. A detonator comprising: a substrate composed of electrical insulator material;a conductor disposed on the substrate including at least two constituents including (i) an electrically conductive constituent, and (ii) an electrically non-conductive constituent, that when subjected to sufficient electrical energy, result in an exothermic reaction; anda flyer plate having a non-conductive surface in contact with said conductor,wherein, the detonator is configured so that when the sufficient electrical energy is supplied to said conductor, rapid heating and vaporization of at least a portion of the conductor alone occurs so as to explosively drive at least a portion of the flyer plate away from said conductor. 2. The detonator of claim 1, wherein the exothermic reaction of the at least two constituents is a chemical reaction, a physical reaction, or some combination thereof. 3. The detonator of claim 1, wherein the electrically conductive constituent and the electrically non-conductive constituent comprise a metal and a metal oxide, respectively, of a thermite material system. 4. The detonator of claim 1, wherein the electrically conductive constituent and the electrically non-conductive constituent comprise an electrically conductive metal and an electrically non-conductive metal, respectively, of an intermetallic material system. 5. The detonator of claim 1, wherein the conductor includes a narrowed portion where electrical resistance of the conductor is maximum. 6. The detonator of claim 1, where the conductor comprises a multilayered stack formed of alternating layers of at least one layer of the electrically conductive constituent, and at least one layer of the electrically non-conductive constituent, the alternating layers being substantially parallel to a substrate with edges of the alternating layers defining a sidewall. 7. The detonator of claim 6, further comprising an electrode formed on at least a portion of the sidewall that ensures electrical connectivity to each electrically conductive constituent layer in the multilayered stack. 8. The detonator of claim 6, wherein the sidewall extends at an angle relative to the surface the substrate. 9. The detonator of claim 6, wherein the sidewall extends at approximately 90 degrees from the surface the substrate. 10. The detonator of claim 1, wherein the sufficient electrical energy comprises an electrical pulse having a power density of about 1-10 W/μm3. 11. The detonator of claim 1, wherein the portion of the flyer plate explosively driven from the conductor is accelerated on the order of about 100,000 times that of gravity. 12. The detonator of claim 1 being configured as a slapper detonator or an exploding foil initiator (EFI). 13. The detonator of claim 1, with the total thickness of the conductor is about 1-50 μm to explosively drive away the flyer plate away from said conductor. 14. The detonator of claim 1, wherein the detonator does not include energetic material which is to be ignited to drive away the flyer plate away from the conductor. 15. A detonator comprising: a substrate composed of electrical insulator material;a multilayer conductor disposed on the substrate formed of alternating layers of at least one electrically conductive layer, and at least one electrically non-conductive layer, that when subjected to sufficient electrical energy, result in an exothermic reaction, the alternating layers being substantially parallel with edges of the alternating layers defining a sidewall;an electrode formed on at least a portion of the sidewall that ensures electrical connectivity to each electrically conductive layer of the conductor; andan exploding plate having a non-conductive surface in contact with said conductor,wherein, the detonator is configured so that when the sufficient electrical energy is supplied to said conductor, rapid heating and vaporization of at least a portion of the conductor alone occurs so as to explosively drive at least a portion of the plate away from said conductor. 16. The detonator of claim 15, wherein the number of alternating layers ranges from 5 to 200. 17. The detonator of claim 15, wherein the exothermic reaction of the at least two constituents is a chemical reaction, a physical reaction, or some combination thereof. 18. The detonator of claim 15, wherein the thicknesses of at least one of the electrically non-conductive layer is sized to ensure that the at least one electrically non-conductive layer heats at approximately the same rate as the at least one electrically conductive layer. 19. The detonator of claim 15, wherein the sidewall extends at an angle relative to the surface the substrate. 20. The detonator of claim 15, wherein the sidewall extends at approximately 90 degrees from the surface the substrate. 21. The detonator of claim 15, further comprising an electrode formed on at least a portion of the sidewall that ensures electrical connectivity to each electrically conductive constituent layer in the multilayered stack. 22. The detonator of claim 15 being configured as a slapper detonator or an exploding foil initiator (EFI).
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이 특허에 인용된 특허 (10)
Baginski, Thomas A.; Parker, Todd S.; Fahey, Wm. David, Electro-explosive device with laminate bridge.
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