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다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
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Kafe 바로가기국가/구분 | United States(US) Patent 등록 |
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국제특허분류(IPC7판) |
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출원번호 | US-0225414 (2011-09-03) |
등록번호 | US-9133695 (2015-09-15) |
발명자 / 주소 |
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 | 피인용 횟수 : 1 인용 특허 : 435 |
A selectively corrodible perforating gun system is disclosed. The perforating gun system includes a shaped charge comprising a charge case having a charge cavity, a liner disposed within the charge cavity and an explosive disposed within the charge cavity between the liner and the charge case, where
A selectively corrodible perforating gun system is disclosed. The perforating gun system includes a shaped charge comprising a charge case having a charge cavity, a liner disposed within the charge cavity and an explosive disposed within the charge cavity between the liner and the charge case, wherein the charge case and liner are each formed from selectively corrodible powder compact material. The perforating gun system also includes a shaped charge housing configured to house the shaped charge.
1. A perforating gun, comprising: a shaped charge comprising a charge case having a charge cavity, a liner disposed within the charge cavity and an explosive disposed within the charge cavity between the liner and the charge case, wherein the charge case and liner are each formed from selectively co
1. A perforating gun, comprising: a shaped charge comprising a charge case having a charge cavity, a liner disposed within the charge cavity and an explosive disposed within the charge cavity between the liner and the charge case, wherein the charge case and liner are each formed from selectively corrodible powder compact material; anda shaped charge housing configured to house the shaped charge; anda separate metal galvanic member, wherein the galvanic member is attached and galvanically coupled to the shaped charge and the shaped charge housing, and wherein the galvanic member is configured to promote corrosion of the at least one of the shaped charge or the shaped charge housing to which it is galvanically coupled when they are exposed to a predetermined wellbore fluid. 2. The perforating gun of claim 1, wherein the shaped charge housing comprises a selectively corrodible powder compact material. 3. The perforating gun of claim 2, wherein the separate galvanic member is configured to promote corrosion of the shaped charge and the shaped charge housing to which it is galvanically coupled when they are exposed to a predetermined wellbore fluid. 4. The perforating gun of claim 1, wherein the shaped charge housing has an annular shape. 5. The perforating gun of claim 1, further comprising an outer housing that is configured to house the shaped charge housing. 6. The perforating gun of claim 5, wherein the outer housing comprises a selectively corrodible powder compact material. 7. The perforating gun of claim 5, wherein the outer housing has an annular shape. 8. The perforating gun of claim 5, wherein the outer housing and the shaped charge housing each comprise a selectively corrodible powder compact material. 9. The perforating gun of claim 8, wherein the annular outer housing and the shaped charge housing comprise the same selectively corrodible powder compact material. 10. The perforating gun of claim 5, wherein the separate galvanic member is galvanically coupled to the shaped charge, shaped charge housing and outer housing, and wherein the separate galvanic member is configured to promote corrosion of the at least one of the shaped charge, shaped charge housing, or outer housing to which it is galvanically coupled when they are exposed to a predetermined wellbore fluid. 11. The perforating gun of claim 10, wherein the separate galvanic member is galvanically coupled to the shaped charge, the shaped charge housing, and the outer housing, and wherein the galvanic member is configured to promote corrosion of the shaped charge, the shaped charge housing and the outer housing to which it is galvanically coupled when they are exposed to a predetermined wellbore fluid. 12. The perforating gun of claim 1, wherein the powder compact comprises a cellular nanomatrix comprising a nanomatrix material; a plurality of dispersed particles comprising a particle core material having a density of 7.5 g/cm3 or more, dispersed in the cellular nanomatrix; anda bond layer extending throughout the cellular nanomatrix between the dispersed particles. 13. The perforating gun of claim 12, wherein the particle core material comprises a metal, ceramic, cermet, glass or carbon, or a composite thereof, or a combination of any of the foregoing materials. 14. The perforating gun of claim 12, wherein the particle core material comprises Fe, Ni, Cu, W, Mo, Ta, U or Co, or a carbide, oxide or nitride comprising at least one of the foregoing metals, or an alloy comprising at least one of the aforementioned materials, or a composite comprising at least one of the aforementioned materials, or a combination of any of the foregoing. 15. The perforating gun of claim 12, wherein the particle core material is ductile. 16. The perforating gun of claim 12, wherein the dispersed particles have an average particle size of about 50nm to about 500 μm. 17. The perforating gun of claim 12, wherein the dispersion of dispersed particles comprises a substantially homogeneous dispersion within the cellular nanomatrix. 18. The perforating gun of claim 12, wherein the dispersion of dispersed particles comprises a multi-modal distribution of dispersed particle sizes within the cellular nanomatrix. 19. The perforating gun of claim 12, wherein the dispersed particles have an equiaxed particle shape or a substantially elongated particle shape. 20. The perforating gun of claim 12, wherein the nanomatrix material comprises Al, Zn, Mn, Mg, Mo, W, Cu, Fe, Si, Ca, Co, Ta, Re or Ni, or an oxide, carbide or nitride thereof, or a combination of any of the aforementioned materials, and wherein the nanomatrix material has a chemical composition and the particle core material has a chemical composition that is different than the chemical composition of the nanomatrix material. 21. The perforating gun of claim 12, wherein the powder compact comprises a plurality of unsintered powder particles. 22. The perforating gun of claim 12, wherein the powder compact comprises a plurality of sintered powder particles. 23. The perforating gun of claim 12, wherein the particle core material has a density of about 10 g/cm3 or more. 24. The perforating gun of claim 1, wherein the liner and shaped charge case comprise a plurality of liners and a corresponding plurality of shaped charge cases.
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