An oxidizer package for use in a solid fuel propellant system. The oxidizer package comprises a solid oxidizer in the form of discrete pellets of predetermined geometric shape. The pellets are arranged in an array with spaces amongst the pellets. A holder is provided for maintaining the pellets in
An oxidizer package for use in a solid fuel propellant system. The oxidizer package comprises a solid oxidizer in the form of discrete pellets of predetermined geometric shape. The pellets are arranged in an array with spaces amongst the pellets. A holder is provided for maintaining the pellets in the array for receipt of a binder introduced to spaces amongst the array of pellets. Preferred propellants include hydrazinium nitroformate and nitronium perchlorate. This arrangement for the pellets can achieve loadings as high as 85% by weight for the pellets.
대표청구항▼
The invention claimed is: 1. An oxidizer package for use in solid fuel propellant system, said oxidizer package comprising a solid oxidizer in the form of discrete pellets of a predetermined geometric shape, wherein said pellets are arranged in an away with spaces amongst said pellets and said spac
The invention claimed is: 1. An oxidizer package for use in solid fuel propellant system, said oxidizer package comprising a solid oxidizer in the form of discrete pellets of a predetermined geometric shape, wherein said pellets are arranged in an away with spaces amongst said pellets and said spaces are filled with a binder, said pellets having a burn rate such that said pellets are not consumed substantially faster than said binder and conversely, said binder having a burn rate such that said binder is not consumed substantially faster than said pellets. 2. An oxidizer package of claim 1 wherein said pellets are pressed from an oxidizer composition. 3. An oxidizer package of claim 1 wherein said oxidizer composition comprises an oxidizer selected from the group consisting of hydroxylammonium nitrate, ammonium perchlorate, ammonium nitrate, hydroxylammonium perchlorate, nitronium perchlorate, hydrazinium nitroformate and ammonium dinitramide. 4. An oxidizer package of claim 3 wherein the composition additionally comprises at least one of modifiers and fuel additives. 5. A solid fuel propellant system comprising at least one oxidizer package of claim 1. 6. A solid fuel propellant system of claim 5, wherein said pellets are pressed from an oxidizer composition. 7. A solid fuel propellant system of claim 6, wherein said oxidizer composition comprises an oxidizer selected from the group consisting of hydroxylammonium nitrate, ammonium perchlorate, ammonium nitrate, hydroxylammonium perchlorate, nitronium perchlorate, hydrazinium nitroformate and ammonium dinitramide. 8. A solid fuel propellant system of claim 7, wherein the composition additionally comprises at least one of modifiers and fuel additives. 9. A solid fuel propellant system of claim 6, wherein said composition contains ultrafine aluminum. 10. A solid fuel propellant system of claim 5, wherein the propellant system comprises at least two oxidizer packages, one oxidizer package being separated from another oxidizer package by an inhibitor layer. 11. A solid fuel propellant system of claim 10, wherein at least two oxidizer packages are in the shape of a right section of a cylinder. 12. A solid fuel propellant system of claim 11 wherein said right cylinder is divided into more than one section. 13. A solid fuel propellant system of claim 12 wherein said sections are selected from semi-circles, tri-sections and quadrants. 14. A solid fuel propellant system of claim 12 wherein said at least two oxidizer packages of the propellant have a circular cross-section with parallel planar opposing ends. 15. A solid fuel propellant system of claim 5 wherein the pellets are in the form of at least one of spheres, capsules, rods and tubes. 16. A solid fuel propellant system of claim 5 wherein the binder is selected from the group consisting of a thermoplastic polymer, a thermoset polymer, waxes or greases, an energetic polymer and a polymerized peroxide. 17. A solid fuel propellant system, of claim 5 wherein the binder is a composite propellant or gas generator composition, or a double-base propellant. 18. A solid fuel propellant system of claim 7, wherein said oxidizer is hydrazinium nitroformate. 19. A solid fuel propellant system of claim 7, wherein said oxidizer is ammonium dinitramide. 20. A solid fuel propellant system of claim 5, wherein said propellant system is for a rocket. 21. A method of making a solid fuel propellant system of claim 5, comprising: i) introducing the binder amongst said pellets arranged in said array, and ii) allowing said binder to set to support said pellets in a binder matrix. 22. A method of claim 21 comprising the additional step of arranging said pellets in an array of predetermined arrangement. 23. A method of claim 21 wherein said binder is poured onto said array of pellets and is allowed to flow into spaces amongst said array of pellets. 24. A method of claim 21 wherein said binder is injected into spaces amongst said array of pellets. 25. A method of claim 21 wherein said pellets are mixed into said binder to provide thereby a random array of pellets in said binder. 26. A method of claim 25 wherein a sufficient amount of pellets are mixed with said binder to provide an array spacing between pellets of less than about 50 microns. 27. An oxidizer package of claim 1 wherein the pellets are in the form of at least one of spheres, capsules, rods and tubes. 28. An oxidizer package of claim 1 wherein the binder is selected from the group consisting of a thermoplastic polymer, a thermoset polymer, waxes or greases, an energetic polymer and a polymerized peroxide. 29. An oxidizer package of claim 1 wherein the binder is a composite propellant or gas generator composition, or a double-base propellant. 30. A solid fuel propellant system of claim 5, wherein the binder provides a support binder matrix, the binder being of a selected material to provide complementary burn rates for said pellets and said support binder matrix. 31. An oxidizer package of claim 1 further comprising a holder for maintaining said pellets in said array for receipt of said binder. 32. An oxidizer package of claim 31 wherein said holder for said array of pellets is a container. 33. An oxidizer package for use in solid fuel propellant system, said oxidizer package comprising a solid oxidizer in the form of discrete pellets of a predetermined geometric shape, said pellets being arranged in an array with spaces amongst said pellets and said spaces are filled with a binder, and further comprising a holder for maintaining said pellets in said array for receipt of said binder, wherein said holder is a flexible open mesh having at least one adhesive surface for sticking to said pellets, said mesh being wrapped about said pellets to hold said pellets in said array until said binder is introduced to said spaces amongst said pellets through said open mesh. 34. An oxidizer package of claim 31 wherein said holder for said array of pellets is a flexible open mesh having adhesive surfaces for sticking to said pellets, said mesh being wrapped about said pellets to hold said pellets in said array until said binder is introduced to said spaces amongst said pellets through said open mesh. 35. An oxidizer package of claim 1 wherein the burn rates of said pellets and said binder is controlled by selection of the materials for said pellets and said binder and by selection of the thickness of said binder between said pellets in both a horizontal and vertical direction. 36. An oxidizer package of claim 1 wherein a ratio of said pellets to said binder is at least about 80% by weight of said pellets to at most about 15% by weight of said binder. 37. An oxidizer package of claim 36 wherein said ratio is about 85% by weight of said pellets and about 15% by weight of said binder.
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이 특허에 인용된 특허 (10)
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