Fibers in a fiber reinforced resin laminate are exposed by placing a gel in contact with the resin laminate, forcing the fibers of the resin laminate into the gel, and using the gel to displace the resin surrounding the fibers being forced into the gel. The gel is removed to expose the fibers.
대표청구항▼
1. A method of exposing fibers in a fiber reinforced resin laminate, comprising: placing a gel in contact with at least a section of a surface of the resin laminate;forcing the fibers of the laminate into the gel by compressing the gel and the laminate together; andusing the gel to displace resin su
1. A method of exposing fibers in a fiber reinforced resin laminate, comprising: placing a gel in contact with at least a section of a surface of the resin laminate;forcing the fibers of the laminate into the gel by compressing the gel and the laminate together; andusing the gel to displace resin surrounding the fibers being forced into the gel. 2. The method of claim 1, further comprising: reducing a viscosity of the resin to a viscosity less than the viscosity of the gel. 3. The method of claim 2, wherein reducing the viscosity of the resin is performed by heating the laminate to a temperature at which the resin is flowable. 4. The method of claim 1, further comprising: curing the laminate, including heating the laminate to a temperature that reduces the viscosity of the resin to a viscosity that is substantially less than the viscosity of the gel. 5. The method of claim 1, further comprising: exposing the fibers by removing the gel from the fibers forced into the gel. 6. The method of claim 5, wherein removing the gel is performed by subjecting the gel to a solvent in which the gel dissolves. 7. The method of claim 5, further comprising using the gel to etch surfaces of the exposed fibers. 8. The method of claim 1, wherein placing a gel in contact with at least a section of a surface of the resin laminate is performed by placing a gel in face-to-face contact with the surface of the resin laminate. 9. The method of claim 1, wherein compressing the gel and the laminate together is performed using a vacuum bag to compress the resin laminate against the gel. 10. The method of claim 9, further comprising: sandwiching the gel between a tool and the resin laminate, andusing the vacuum bag to compress the resin laminate against the gel includes placing the vacuum bag over the resin laminate and the gel, sealing the vacuum bag to the tool, and drawing a vacuum in the vacuum bag. 11. A method of joining first and second fiber reinforced resin laminate parts, comprising: placing a displacement gel against a faying surface of a first pre-preg laminate part layup;placing a displacement gel against a faying surface of a second pre-preg laminate part layup;curing each of the first and second laminate part layups to produce first and second cured laminate parts, including heating each of the first and second laminate part layups to a cure temperature;compressing each of the first and second laminate part layups;using the displacement gel to displace the resin and encapsulate the fibers along the faying surfaces of the first and second laminate part layups during curing of the laminate parts;exposing the fibers along the faying surfaces by removing the gel encapsulating the fibers;placing the faying surfaces of the first and second laminate parts in overlapping contact with each other;infusing the exposed fibers with a bonding adhesive; and, curing the bonding adhesive. 12. The method of claim 11, wherein placing the displacement gel against the faying surface of the first pre-preg laminate part layup includes placing a sheet of the displacement gel on a tool, and placing the first pre-preg laminate part layup on the tool, overlying the sheet of the displacement gel. 13. The method of claim 12, wherein encapsulating the fibers is performed by: sealing a vacuum bag over the tool,drawing a vacuum within the vacuum bag, andusing the vacuum to force fibers into the sheet of the displacement gel. 14. The method of claim 11, wherein the displacement gel has a viscosity substantially greater than a viscosity of the resin at the cure temperature. 15. The method of claim 11, wherein compressing each of the first and second laminate part layups is performed using a vacuum bag. 16. The method of claim 11, wherein the displacement gel encapsulating the fibers is removed after the first and second laminate part layups have been cured. 17. The method of claim 11, wherein placing the faying surfaces of the first and second laminate parts in overlapping contact with each other includes interpenetrating the exposed fibers of the faying surfaces of the first and second laminate parts. 18. The method of claim 11, wherein removing the displacement gel to expose the fibers is performed by subjecting the displacement gel to a solvent in which the displacement gel dissolves. 19. The method of claim 12, further comprising: removing displacement gel from the tool by cleaning the tool with a solvent in which the displacement gel dissolves. 20. The method of claim 11, wherein the faying surfaces of the first and second laminate parts forms a lap joint. 21. A method of bonding together two fiber reinforced resin laminates, comprising: exposing reinforcing fibers in a section of each of the laminates by displacing resin surrounding the fibers with a gel;applying a bonding adhesive to the exposed fibers in the sections of each of the laminates;placing the sections of the laminates in contact with each other; andcuring the bonding adhesive. 22. The method of claim 21, wherein exposing reinforcing fibers in a section of each of the resin laminates is performed by: reducing a viscosity of the resin of each of the laminates by heating the laminates, andusing the gel to displace resin in the sections of the laminate where the viscosity of the resin has been reduced by the heating. 23. The method of claim 21, wherein exposing reinforcing fibers in a section of each of the resin laminates is performed by: placing the gel in contact with each of the sections of the resin laminates,forcing the fibers of each of the laminate into the gel by compressing each of the laminates against the gel, andusing the gel to displace resin surrounding the fibers of each of the laminates being forced into the gel. 24. The method of claim 21, wherein: exposing fibers in a section of each of the laminates includes exposing reinforcing fibers in a faying surface of each of the laminates, andplacing the sections of the laminate in contact with each other includes placing the faying surfaces of the laminates in face-to-face contact with each other. 25. A method of fabricating a fiber reinforced composite part, comprising: assembling a fiber preform reinforcement;impregnating at least one portion of the fiber preform reinforcement with a gel;infusing the fiber preform reinforcement with resin;using the gel to prevent infusion of the portion of a fiber preform reinforcement with resin; andexposing fibers in the portion of the fiber preform reinforcement by removing the gel. 26. The method of claim 25, wherein the gel has a viscosity substantially greater than the viscosity of the resin when the resin is infused into the fiber preform reinforcement. 27. The method of claim 26, further comprising: curing the resin infused fiber preform reinforcement, andwherein removing the gel is performed using a solvent to dissolve the gel away from the fiber preform reinforcement. 28. A method of making a composite structure, comprising: producing first and second fiber reinforced resin laminate parts;exposing reinforcing fibers along an edge of each of the first and second laminate parts by displacing resin surrounding the fibers with a displacement gel; andforming a butt joint between the edges of the first and second laminate parts, including interpenetrating the exposed fibers along the edges of the first and second laminate parts and infusing the interpenetrating exposed fibers with a bonding adhesive. 29. The method of claim 28, wherein interpenetrating the exposed fibers along the edges of the first and second laminate parts is performed by axially displacing the first and second laminate parts toward each other until the exposed fibers of the edges overlap each other. 30. The method of claim 28, further comprising curing the bonding adhesive to integrally join the first and second laminate parts. 31. The method of claim 28 wherein: forming the first and second laminate parts includes assembling first and second pre-preg layups and curing each of the first and second layups, andexposing the reinforcing fibers includes- interspersing plies of the displacement gel between pre-preg plies of each of the first and second layups,using the displacement gel to displace resin along the edges of the first and second layups during curing, andremoving the displacement gel from the edges after the first and second laminate parts have been cured. 32. The method of claim 28, wherein exposing the reinforcing fibers includes displacing resin along the edges of the first and second laminate parts. 33. The method of claim 28, wherein exposing reinforcing fibers includes exposing the reinforcing fibers throughout the entire thickness of the edges of the first and second laminate parts. 34. A method of forming a butt joint between first and second fiber reinforced resin laminate parts, comprising: exposing reinforcing fibers along an edge of each of the first and second laminate parts by displacing resin surrounding the fibers with a displacement gel;axially displacing the first and second laminate parts toward each other until the reinforcing fibers of each of the first and second laminate parts interpenetrate each other; andinfusing the interpenetrating reinforcing fibers with a bonding adhesive. 35. The method of claim 34, wherein exposing the reinforcing fibers is performed using the displacement gel to displace resin along the edges of each of the first and second laminate parts. 36. The method of claim 34, wherein exposing the reinforcing fibers includes displacing resin along the edges of each of the first and second laminate parts throughout their entire thicknesses.
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