A robust, chemically, structurally, and thermodynamically compatible ablative gap filler that can be processed with ease is provided. The gap filler uses a carbon phenolic mixture that has nearly the same material property characteristics as the adjacent PICA or carbon phenolic tiles. The gap filler
A robust, chemically, structurally, and thermodynamically compatible ablative gap filler that can be processed with ease is provided. The gap filler uses a carbon phenolic mixture that has nearly the same material property characteristics as the adjacent PICA or carbon phenolic tiles. The gap filler is applied into the gaps using an innovative processing approach that involves preparation of a ‘dry mixture’ of the ingredients, which is then packed manually or robotically (if needed) into the gaps. During the packing process, the dry mixture may be vented, and pressed periodically to ensure that there are no trapped voids. After each gap is adequately filled with the mixture, the assembly is bagged and cured in the oven at about 250 or 300° F. for about 1.5 to 2 hours. The gap filler thereby forms a bond with the adjacent PICA or carbon phenolic tiles, without degrading or modifying the properties at any of the interfaces (e.g., with the tiles, adhesives, substrate, etc.).
대표청구항▼
1. An ablative heat shield for spacecraft atmospheric entry or re-entry, comprising: (a) a substrate,(b) an ablative structure affixed to the substrate, the ablative structure having open spaces present therein, and(c) an ablative composition disposed in said open spaces, said ablative composition c
1. An ablative heat shield for spacecraft atmospheric entry or re-entry, comprising: (a) a substrate,(b) an ablative structure affixed to the substrate, the ablative structure having open spaces present therein, and(c) an ablative composition disposed in said open spaces, said ablative composition comprising: (1) carbon, said carbon comprising about 25% to about 40% by weight of the ablative composition, and(2) a phenolic resin, said phenolic resin comprising about 40% to about 70% by weight of the ablative composition. 2. An ablative heat shield according to claim 1 wherein the phenolic resin is a phenol formaldehyde resin. 3. An ablative heat shield according to claim 1 wherein the phenolic resin further comprises a crosslinking agent. 4. An ablative heat shield according to claim 3 wherein the crosslinking agent is a polyamine. 5. An ablative heat shield according to claim 1 wherein the carbon in the ablative composition comprises carbon fibers. 6. An ablative heat shield according to claim 5 wherein said carbon fibers have an aspect ratio of 3:1 to 400:1. 7. An ablative heat shield according to claim 1 wherein the ablative composition further comprises silica microballoons. 8. An ablative heat shield according to claim 1 wherein said ablative structure comprises a plurality of ablative tiles affixed to the substrate in a configuration such that the heat shield comprises one or more gaps between said ablative tiles. 9. An ablative heat shield according to claim 8 wherein the ablative tiles comprise carbon and phenolic resin. 10. An ablative heat shield according to claim 9 wherein the ablative tiles comprise a carbon fiber mat impregnated with phenolic resin. 11. An ablative heat shield according to claim 1 wherein said ablative structure comprises a multi-cell support element affixed to the substrate. 12. A method of making an ablative heat shield for spacecraft atmospheric entry or re-entry, comprising the steps of: (a) affixing an ablative structure to a substrate, the ablative structure having open spaces present therein,(b) disposing an ablative composition in said open spaces, said ablative composition comprising: (1) carbon, said carbon comprising about 25% to about 40% by weight of the ablative composition, and(2) a phenolic resin, said phenolic resin comprising about 40% to about 70% by weight of the ablative composition, and(c) curing said ablative composition. 13. A method to claim 12 wherein the phenolic resin is a phenol formaldehyde resin. 14. A method according to claim 12 wherein the phenolic resin further comprises a crosslinking agent. 15. A method according to claim 14 wherein the crosslinking agent is a polyamine. 16. A method according to claim 12 wherein the carbon in the ablative composition comprises carbon fibers. 17. A method according to claim 16 wherein said carbon fibers have an aspect ratio of 3:1 to 400:1. 18. A method according to claim 12 wherein the ablative composition further comprises silica microballoons. 19. A method according to claim 12 wherein the phenolic resin of the ablative composition is in dry powder form. 20. A method according to claim 19 wherein the phenolic resin of the ablative composition comprises solid phenolic resin particles and phenolic resin microballoons. 21. A method according to claim 19 wherein the phenolic resin of the ablative composition further comprises a crosslinking agent. 22. A method according to claim 21 wherein the crosslinking agent is a polyamine. 23. A method according to claim 19 wherein the ablative composition is in dry powder form. 24. A method according to claim 23, further comprising packing or compressing the dry powder ablative composition into said open spaces prior to curing. 25. A method according to claim 12 wherein said ablative structure comprises a plurality of ablative tiles affixed to the substrate in a configuration such that the heat shield comprises one or more gaps between said ablative tiles. 26. A method according to claim 25 wherein the ablative tiles comprise carbon and phenolic resin. 27. A method according to claim 26 wherein the ablative tiles comprise a carbon fiber mat impregnated with phenolic resin. 28. A method according to claim 12 wherein said ablative structure comprises a multi-cell support element affixed to the substrate.
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이 특허에 인용된 특허 (7)
Rawal, Suraj P.; Hund, Richard A.; Makowski, Kevin P.; Willcockson, William H., Carbon-phenolic ablator monoliths and their methods of manufacture.
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