A helicopter with one or more components formed from a self extinguishing composite primary structure material to provide increased passenger safety. The self extinguishing composite primary structure material has a core formed from a fire retardant material, which core has a first surface and a sec
A helicopter with one or more components formed from a self extinguishing composite primary structure material to provide increased passenger safety. The self extinguishing composite primary structure material has a core formed from a fire retardant material, which core has a first surface and a second surface, and at least one ply of a structural graphite prepreg material bonded to each of the first surface and the second surface.
대표청구항▼
What is claimed is: 1. A helicopter comprising a self extinguishing composite primary structure comprising: a core formed from an open cell and a thermal insulating material; said core comprising a plurality of honeycomb cells filled with a fiberglass material; said core having a first surface and
What is claimed is: 1. A helicopter comprising a self extinguishing composite primary structure comprising: a core formed from an open cell and a thermal insulating material; said core comprising a plurality of honeycomb cells filled with a fiberglass material; said core having a first surface and a second surface; at least one ply of a structural graphite prepreg material bonded to each of said first surface and said second surface; each said ply is bonded to each of said first and second surfaces by an epoxy structural film adhesive; and said epoxy structural film adhesive comprising a 350 degree Fahrenheit curing epoxy structural film adhesive. 2. A helicopter comprising a self extinguishing composite primary structure according to claim 1, wherein each said ply is formed from a graphite cloth impregnated with an epoxy resin. 3. A helicopter comprising a lower cabin door including a plurality of steps and each of said steps being formed from said self extinguishing composite primary structure of claim 1. 4. A helicopter comprising a self extinguishing composite primary structure comprising: a core formed from a cellular material and a thermal insulating material; said core comprising a plurality of honeycomb cells filled solely with fiberglass; said core having a first surface and a second surface; at least one ply of a structural graphite prepreg material bonded to each of said first surface and said second surface; and a plurality of plies of structural graphite prepreg are bonded to each of said first and second surfaces by an epoxy structural film adhesive. 5. A helicopter comprising a self extinguishing composite primary structure according to claim 4, wherein said adhesive comprises a 350 degree Fahrenheit curing epoxy structural film adhesive. 6. A helicopter comprising: at least one component formed from a self extinguishing composite material, said self extinguishing composite material comprises a core formed from a fire resisting material, which core comprises a plurality of honeycomb cells filled solely with a fiberglass material and has a first surface and a second surface, and at least one ply of a structural graphite prepreg material bonded to each of the first surface and the second surface, wherein said at least one ply bonded to said first surface forms an exterior surface of said helicopter and said at least one ply bonded to said second surface forming an interior surface of said helicopter. 7. A helicopter according to claim 6, wherein said at least one component comprises an outer skin panel in a cockpit section of said helicopter. 8. A helicopter according to claim 6, wherein said helicopter has a cabin section and said at least one component comprises an upper cabin door in said cabin section. 9. A helicopter according to claim 6, wherein said helicopter has a cabin section and said at least one component comprises a lower cabin door in said cabin section. 10. A helicopter according to claim 6, wherein said helicopter has a cabin section and said at least one component comprises at least one emergency egress hatch in said cabin section. 11. A helicopter according to claim 6, wherein said helicopter has a transition section and said at least one component comprises an upper door in said transition section. 12. A helicopter according to claim 6, wherein each said ply is bonded to each of said first and second surfaces by an epoxy structural film adhesive. 13. A helicopter according to claim 12, wherein said epoxy structural film adhesive comprises a 350 degree Fahrenheit curing epoxy structural film adhesive. 14. A helicopter according to claim 6, wherein said self extinguishing composite material comprises a plurality of plies of structural graphite prepreg bonded to each of said first and second surfaces by an epoxy structural film adhesive. 15. A helicopter according to claim 6, wherein each said ply is formed from a graphite cloth impregnated with an epoxy resin. 16. A helicopter according to claim 6, wherein: said at least one component comprises an outer skin panel in a cockpit section of said helicopter, an upper cabin door in a cabin section of said helicopter, a lower cabin door in said cabin section, at least one emergency egress hatch in said cabin section, and an upper door in a transition section; and said lower cabin door including a plurality of steps and each of said steps being formed from a self extinguishing composite structure. 17. A helicopter comprising: at least one component for allowing at least one of human access to and egress from at least one of a cabin and a cockpit section of said helicopter; and said at least one component formed from a self extinguishing composite material comprising a core formed from a fire resisting material, which core has a plurality of honeycomb cells having solely fiberglass therein and has a first surface and a second surface, and at least one ply of, a structural graphite prepreg material bonded to the first surface and at least one ply bonded to the second surface. 18. A helicopter comprising: means for increasing crew and passenger safety; said crew and passenger safety increasing means comprising means for resisting fire forming each of a portion of a cockpit section of the helicopter, an upper cabin door, a lower cabin door, at least one emergency egress hatch, and an upper door in a transition section; and each said fire resisting means forming said portion of said cockpit section of the helicopter, said upper cabin door, said lower cabin door, said at least one emergency egress hatch, and said upper door in said transition section comprising an outer skin panel having core means for self extinguishing in event of a fire said core means comprising a honeycomb cell structure formed from a fire retardant material, said honeycomb cell structure having a plurality of cells each filled with fiberglass, means for forming an exterior structural surface and an interior structural surface, and means for bonding said structural surfaces forming means to said core means. 19. A helicopter according to claim 18, wherein said bonding means comprises a 350 degree Fahrenheit epoxy structural film adhesive. 20. A helicopter according to claim 18, wherein at least one of said structural surfaces is formed from a 350 degree Fahrenheit cure graphite cloth material impregnated with an epoxy resin material.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (44)
Ambrose Michael H. ; Russo Kenneth J., Aircraft sliding door system.
Santiso ; III Joseph M. (Southbury CT) Durinski ; Jr. Stanley J. (Beacon Falls CT), Closeout configuration for honeycomb core composite sandwich panels.
Lusignea Richard W. (Brighton MA) Stanco Joseph J. (Clinton NY) Kashalikar Uday (Natick MA), Film-based composite structures for ultralightweight SDI systems.
Wang Yen-Seine (San Ramon CA) Lee Frank (Danville CA) Kuo Ching-Chi (Danville CA) Baron Ken (San Ramon CA), Foam filled honeycomb and methods for their production.
Cournoyer, David M.; Cawthra, Neil W.; Carstensen, Thomas A.; Rogg, Christian A.; Osiecki, Michael G., High pressure co-cure of lightweight core composite article utilizing a core having a plurality of protruding pins.
Yamazaki, Kaoru; Kumagai, Yasushi; Shimizu, Tomokazu; Inoue, Akira; Taguchi, Masamichi; Ozaki, Kengo, Honeycomb core material for sandwich structure and method for manufacturing the same.
Forster William V. (Seymour CT) Riley Patrick L. (Hamden CT), Method of fabricating a composite article having an integral, co-cured composite stiffening member.
Bremmer, Jonathan; Sauer, Jeffrey G.; Fabian, Edward Joseph; Lacko, Robert A.; Cawthra, Neil W.; Rogg, Christian A.; Denavit, Paul H.; Hovan, III, William E., Co-curing reusable elastomeric caul plate.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.