초록 ▼

A method and apparatus for manufacturing a composite structure. The apparatus comprises a base section and a locking section. The base section of a mandrel has a channel with an opening that receives a portion of a bagging material wrapped around an exterior surface of the base section. The locking

A method and apparatus for manufacturing a composite structure. The apparatus comprises a base section and a locking section. The base section of a mandrel has a channel with an opening that receives a portion of a bagging material wrapped around an exterior surface of the base section. The locking section of the mandrel engages the channel such that the portion of the bagging material in the channel is held inside the channel.

대표청구항 ▼

1. An apparatus that comprises: a first planar section;a second planar section;a base section of a mandrel that comprises: an exterior surface, and a channel that comprises an opening that receives a portion of a bagging material, the bagging material being wrapped around the exterior surface of the

1. An apparatus that comprises: a first planar section;a second planar section;a base section of a mandrel that comprises: an exterior surface, and a channel that comprises an opening that receives a portion of a bagging material, the bagging material being wrapped around the exterior surface of the base section;a compressible section located between the first planar section and the second planar section, such that the compressible section presses the bagging material against a first side of the exterior surface in response to a movement of the base section downward against the compressible section; anda locking section of the mandrel that engages the channel such that the portion of the bagging material in the channel is held inside the channel. 2. The apparatus of claim 1 further comprising: a biasing system that moves the first planar section and the second planar section towards each other. 3. The apparatus of claim 1, wherein the base section is comprised of a material selected from at least one of graphite, graphite foam, titanium, aluminum, invar, or ceramic. 4. The apparatus of claim 1, wherein the locking section is flexible. 5. The apparatus of claim 4, wherein the locking section is comprised of a material selected from one of a nylon, a plastic, and aluminum. 6. The apparatus of claim 4, wherein the locking section has a hole and further comprising: a structure that causes the locking section to engage the channel when the structure is placed into the hole, wherein the structure is selected from one of a screw, a tooling pin, and a tapered pin. 7. A mandrel bagging system comprising: a base section of a mandrel that comprises: an exterior surface, and a channel that comprises an opening that receives a portion of a bagging material, the bagging material being wrapped around the exterior surface of the base section;a locking section of the mandrel that engages the channel such that the portion of the bagging material in the channel is held inside the channel; anda platform having a first planar section, a second planar section, and a compressible section located between the first planar section and the second planar section, wherein the compressible section presses the bagging material against a first side of the exterior surface when the base section is moved downward against the compressible section. 8. The mandrel bagging system of claim 7, wherein the base section and the locking section form a two piece mandrel. 9. The mandrel bagging system of claim 7, wherein the base section is comprised of a material selected from at least one of graphite, graphite foam, titanium, aluminum, invar, or ceramic. 10. The mandrel bagging system of claim 7, wherein the locking section is flexible and wherein the locking section is comprised of a material selected from one of a nylon, a plastic, and aluminum. 11. A method for manufacturing a composite structure, the method comprising: placing a bagging material on a platform;placing a base section of a mandrel on the bagging material on the platform;moving the base section downward onto the bagging material on the platform at a compressible section of the platform located between a first planar section and a second planar section of the platform, wherein the compressible section presses the bagging material against a first side of the exterior surface of the base section when the base section is moved downward against the compressible section;moving a portion of the bagging material through an opening in the base section into a channel in the base section after wrapping the bagging material around an exterior surface of the base section;moving a locking section of the mandrel through the opening into the channel with the portion of the bagging material in the channel; andlocking the locking section in the channel such that the bagging material is held in place around the base section. 12. The method of claim 11 further comprising: forming the composite structure using the mandrel with the bagging material wrapped around the base section and locked in place by the locking section of the mandrel. 13. The method of claim 12, wherein the composite structure is a stringer and the forming step comprises: draping layers of composite material around the base section of the mandrel with the bagging material locked in place by the locking section to form an uncured stringer;placing the uncured stringer with the mandrel on an uncured skin;removing the locking section of the mandrel; andmoving the portion of the bagging material to cover the uncured stringer and the uncured skin to form a bag such that the base section is outside of the bag. 14. The method of claim 13, wherein the forming step further comprises: curing the layers of composite material for the uncured stringer and the uncured skin. 15. The method of claim 14, wherein the curing step comprises: applying a vacuum on the bag; andheating the layers of composite material for the uncured stringer and the uncured skin while the vacuum is being applied. 16. The method of claim 15, wherein the layers of composite material and the uncured skin are located in an autoclave and wherein the curing step further comprises: applying pressure to the layers of composite material and the uncured skin while applying the vacuum and heating the layers of composite material and the uncured skin. 17. The method of claim 11 further comprising: placing layers of composite material for a stringer on a skin for an aircraft. 18. The method of claim 12, wherein the composite structure is a stringer and the forming step comprises: draping layers of composite material around the base section of the mandrel with the bagging material locked in place by the locking section to form an uncured stringer;placing the uncured stringer with the mandrel on an uncured skin; andco-curing the uncured stringer and the uncured skin. 19. The method of claim 11, wherein the composite structure is selected from one of a stringer, a longeron, a stiffener and ribs.