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A mandrel for manufacturing a unitary seamless section of an aircraft fuselage comprises a thin lay-up mandrel element disposed onto the outer shell surface of an inner mandrel shell, forming a mandrel with a substantially continuous lay-up surface. A unitary pre-cured section of an aircraft fuselag

A mandrel for manufacturing a unitary seamless section of an aircraft fuselage comprises a thin lay-up mandrel element disposed onto the outer shell surface of an inner mandrel shell, forming a mandrel with a substantially continuous lay-up surface. A unitary pre-cured section of an aircraft fuselage is formed by laying up a plurality of resin impregnated skin fibers onto the mandrel's lay-up surface while the mandrel rotates.

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1. A mandrel for use in manufacturing a unitary seamless section of an aircraft fuselage comprising: a cylindrical inner mandrel shell having an outer shell surface, said outer shell surface having an outer taper from a first shell end to a second shell end such that an outer diameter of the inner m

1. A mandrel for use in manufacturing a unitary seamless section of an aircraft fuselage comprising: a cylindrical inner mandrel shell having an outer shell surface, said outer shell surface having an outer taper from a first shell end to a second shell end such that an outer diameter of the inner mandrel shell is larger at the first shell end than at the second shell end;a thin lay-up mandrel element disposable onto said outer shell surface to form a mandrel with a substantially continuous lay-up surface, said thin lay-up mandrel element having an inner element surface having an inner taper from a first element end to a second element end such that an inner diameter of said thin lay-up mandrel element is smaller at the first element end than at the second element end, the inner taper being arranged to he opposite the outer taper. 2. A mandrel according to claim 1, wherein said inner mandrel shell comprises a one-piece shell and said thin lay-up mandrel element comprises a plurality of caul plates. 3. A mandrel according to claim 1, wherein the inner taper complements the outer taper, such that said lay-up surface has a substantially uniform dimension from the first element end to the second element end. 4. A mandrel according to claim 1, further comprising: a plurality of stiffener channels formed in said thin lay-up mandrel element, said plurality of stiffener channels adapted to receive a plurality of resin impregnated stiffener fibers: anda plurality of rubber mandrels configured to fit into each of said plurality of stiffener channels after laying up said plurality of resin impregnated stiffener fibers. 5. A mandrel according to claim 1, further comprising: at least one support ring engaged to said thin lay-up mandrel element, said at least one support ring supporting said thin lay-up mandrel element while said cylindrical inner mandrel shell is removed. 6. A mandrel according to claim 1, wherein the inner taper and the outer taper are at least about 5 degrees. 7. A mandrel according to claim 1, further comprising: an air source in communication with said cylindrical inner mandrel shell such that said air source forces air in between said thin lay-up mandrel element and said cylindrical inner mandrel shell to facilitate removal of said cylindrical inner mandrel shell. 8. A mandrel according to claim 1, further comprising: a vibrational source in communication with said cylindrical mandrel inner shell such said vibrational source applies a vibrational load to said thin lay-up mandrel element to facilitate removal of said cylindrical inner mandrel shell. 9. A mandrel for use in manufacturing a unitary seamless section of an aircraft fuselage comprising: a one-piece inner mandrel shell having an outer shell surface, the outer shell surface having an outer taper from a first shell end to a second shell end such that an outer diameter of the inner mandrel shell is larger at the first shell end than at the second shell end;a plurality of caul plates disposable onto said outer shell surface to form a mandrel with a lay-up surface, said caul plates arranged longitudinally parallel to the longitudinal axis of said one-piece inner mandrel shell, said plurality of caul plates having an inner caul surface having an inner taper from a first caul end to a second caul end such that an inner diameter of said plurality of caul plates is smaller at the first caul end than at the second caul end, the inner taper being arranged to be opposite the outer taper. 10. A mandrel according to claim 9, wherein the inner taper complements the outer taper, such that said lay-up surface has a substantially uniform dimension from the first caul end to the second caul end. 11. A mandrel according to claim 9, further comprising: at least one support ring engaged to said caul plates, said at least one support ring supporting said caul plates while said inner mandrel shell is removed. 12. A mandrel according to claim 9, wherein the inner taper and the outer taper are at least about 5 degrees. 13. A mandrel according to claim 9, further comprising: an air source in communication with said inner mandrel shell such that said air source forces air in between said caul plates and said inner mandrel shell to facilitate removal of said inner mandrel shell. 14. A mandrel according to claim 9, further comprising: a vibrational source in communication with said inner mandrel shell such that said vibrational source applies a vibrational load to said caul plates to facilitate removal of said inner mandrel shell. 15. A mandrel for use in laying up a unitary pre-cured seamless section of an aircraft fuselage comprising: a cylindrical one-piece inner mandrel shell having an outer shell surface, the outer shell surface having an outer taper from a first shell end to a second shell end such that an outer diameter of the inner mandrel shell is larger at the first shell end than at the second shell end;a plurality of caul plates disposable onto said outer shell surface, said caul plates abutted end-to-end around said outer shell surface to form a contiguous lay-up surface having a plurality of longitudinal stiffener channels formed therein, said plurality of caul plates having an inner caul surface having an inner taper from a first caul end to a second caul end such that an inner diameter of said plurality of caul plates is smaller at the first caul end than at the second caul end, the inner taper being arranged to be complementary to and opposite the outer taper; the inner taper complementing the outer taper such that lay-up surface has a substantially uniform dimension from the first caul end to the second caul end. 16. A mandrel according to claim 15, wherein the plurality of caul plates are arranged longitudinally parallel to the longitudinal axis of said one-piece inner mandrel shell. 17. A mandrel according to claim 15, wherein said plurality of stiffener channels are adapted to receive a plurality of resin impregnated stiffener fibers, such that top ends of said stiffener fibers are flush with said lay-up surface. 18. A mandrel according to claim 17, further comprising a plurality of rubber mandrels configured to fit into each of said plurality of stiffener channels after laying up said plurality of resin impregnated stiffener fibers. 19. A mandrel according to claim 15, further comprising: at least one support ring engaged to said caul plates, said at least one support ring supporting said caul plates while said inner mandrel shell is removed. 20. A mandrel according to claim 15, wherein the inner taper and the outer taper are at least about 5 degrees. 21. A mandrel according to claim 15, further comprising: an air source in communication with said inner mandrel shell such that said air source forces air in between said caul plates and said inner mandrel shell to facilitate removal of said inner mandrel shell. 22. A mandrel according to in claim 15, further comprising: a vibrational source in communication with said inner mandrel shell such that said vibrational source applies a vibrational load to said caul plates to facilitate removal of said inner mandrel shell.