Flares with a consumable weight and methods of fabrication and use
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F42B-004/26
F42B-012/42
C06C-015/00
출원번호
US-0289669
(2011-11-04)
등록번호
US-9194669
(2015-11-24)
발명자
/ 주소
Widener, Jeffrey F.
Nielson, Daniel B.
출원인 / 주소
ORBITAL ATK, INC.
대리인 / 주소
TraskBritt
인용정보
피인용 횟수 :
2인용 특허 :
37
초록▼
Flares with consumable weights connected to a forward end of the grain of the flare are disclosed. Also disclosed are consumable weight components for flares. The consumable weight components include a metal material within a matrix. Also disclosed are methods for fabricating a flare and methods for
Flares with consumable weights connected to a forward end of the grain of the flare are disclosed. Also disclosed are consumable weight components for flares. The consumable weight components include a metal material within a matrix. Also disclosed are methods for fabricating a flare and methods for using a flare. Use of the consumable weights in the flares may reduce the amount of debris falling to ground.
대표청구항▼
1. A flare comprising: a grain comprising a combustible material; anda consumable weight bonded directly to a forward end of the grain, the consumable weight comprising metal material suspended within a matrix, the matrix constraining the metal material therein and exhibiting a solid, continuous pha
1. A flare comprising: a grain comprising a combustible material; anda consumable weight bonded directly to a forward end of the grain, the consumable weight comprising metal material suspended within a matrix, the matrix constraining the metal material therein and exhibiting a solid, continuous phase of the consumable weight. 2. The flare of claim 1, wherein the consumable weight has a density greater than or equal to about 8.4 grams per cubic centimeter. 3. The flare of claim 1, wherein the metal material comprises a metal-containing material selected from the group consisting of tungsten, bismuth, lead, tantalum, tungsten oxide, bismuth oxide, lead oxide, tantalum oxide, tungsten carbide, alloys thereof, and combinations thereof. 4. The flare of claim 1, wherein the consumable weight is formulated to produce at least one of gaseous byproducts, a friable material, and unreacted metal material upon combustion. 5. The flare of claim 1, wherein the metal material comprises between about 50 weight percent and about 98 weight percent of the consumable weight. 6. The flare of claim 1, wherein the matrix comprises a polymer binder formed from a curable polymer binder. 7. The flare of claim 6, wherein the curable polymer binder comprises at least one of glycidyl azide polymer, nitrocellulose, polyethylene glycol, polypropylene glycol, polybutadiene acrylonitrile, hydroxyl-terminated polybutadiene, cellulose acetate butyrate, and a fluoroelastomer. 8. The flare of claim 6, wherein the curable polymer binder is a liquid at a processing temperature of the consumable weight. 9. The flare of claim 1, wherein the combustible material and the matrix comprise essentially identical compositions. 10. The flare of claim 1, wherein the matrix further comprises at least one of a plasticizer, an oxidizer, and a burn rate catalyst. 11. The flare of claim 1, wherein the consumable weight comprises tungsten particles in a glycidyl azide polymer matrix. 12. The flare of claim 1, wherein the consumable weight is attached to the grain. 13. The flare of claim 1, wherein: the flare is configured to be released from an airborne aircraft; andthe matrix is formulated to be fully consumed before combustion products of the consumable weight contact another aircraft or an earth-supported object. 14. The flare of claim 1, wherein the metal material is essentially uniformly dispersed within the matrix. 15. The flare of claim 1, wherein the metal material is more densely dispersed within the matrix proximate to a front side of the consumable weight. 16. The flare of claim 1, wherein the matrix comprises a cured energetic binder. 17. The flare of claim 1, wherein the matrix comprises a cured nonenergetic binder. 18. The flare of claim 1, wherein the metal material comprises a metal, a metal alloy, or a metal oxide. 19. The flare of claim 1, wherein the metal material is a powdered metal material. 20. The flare of claim 1, wherein the metal material exhibits an average particle size not exceeding 60 micrometers. 21. A method for fabricating a flare, comprising: suspending a metal material within a matrix to form a consumable weight, the matrix constraining the metal material therein and exhibiting a solid, continuous phase of the consumable weight; andbonding the consumable weight directly to a forward end of a grain comprising a combustible material. 22. A method for using a flare, comprising: providing a flare comprising a combustible grain and a consumable weight bonded directly to a forward end of the combustible grain and comprising a metal material suspended within a matrix, the matrix constraining the metal material therein and exhibiting a solid, continuous phase of the consumable weight; andcombusting the consumable weight to produce combustion products comprising gaseous byproducts, a friable material, and unreacted metal material. 23. The method of claim 22, wherein combusting the consumable weight comprises incinerating the matrix before the friable material and unreacted metal material impact an airborne aircraft or an earth-supported object. 24. The method of claim 22, wherein combusting the consumable weight comprises producing an ash. 25. The method of claim 22, wherein combusting the consumable weight to produce combustion products comprises producing the friable material and unreacted metal material having an average particle size of less than or equal to about 60 micrometers. 26. A flare comprising: a grain comprising a combustible material; anda consumable weight seamlessly integrated directly with a forward end of the grain, the consumable weight comprising metal material suspended within a matrix, the matrix constraining the metal material therein and exhibiting a solid, continuous phase of the consumable weight.
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이 특허에 인용된 특허 (37)
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Nielson,Daniel B.; Tanner,Richard L.; Dilg,Carl, Flares including reactive foil for igniting a combustible grain thereof and methods of fabricating and igniting such flares.
Jones Leon L. (344 W. Pleasant View Ogden UT 84414) Nielson Daniel B. (407 E. 1st South Brigham City UT 84302), Infrared illuminant and pressing method.
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