Claims
- 1. A method of molding a composite by flowing a resin into a preform comprising:
a. providing a mold surface; b. placing said preform on said mold surface; c. placing a first flexible impermeable membrane over a portion of said preform, said first impermeable membrane having a preform side adjacent said preform; d. placing an impermeable spacer system on said first flexible impermeable membrane, said first flexible impermeable membrane having a spacer system side adjacent said impermeable spacer system; e. sealing said first flexible impermeable membrane to said impermeable spacer system, thereby enclosing a network of gaps and forming a bladder; f. providing a means of adjusting a spacer system pressure on said spacer system side of said first flexible impermeable membrane; g. placing a second flexible impermeable membrane over said impermeable spacer system and said preform; h. drawing a vacuum on said preform; i. providing a source of said resin in communication with said preform side of said first flexible impermeable membrane; j. applying a resin pressure on said preform side of said first flexible impermeable membrane that is higher than said spacer system pressure on said spacer system side of said first flexible impermeable membrane thereby creating a differential pressure that deforms said first flexible impermeable membrane into said network of gaps in said impermeable spacer system, said first flexible impermeable membrane forming temporary resin flow pathways on said preform while deformed into said network of gaps; k. flowing said resin along said temporary resin flow pathways and from said temporary resin flow pathways into said preform; l. reversing said differential pressure thereby causing said first flexible impermeable membrane to press evenly upon said preform to remove said temporary resin flow pathways; m. curing said resin in said preform to form said composite
- 2. The method of claim 1, wherein creating said differential pressure comprises applying a vacuum to said spacer system side of said first flexible impermeable membrane, and reversing said differential pressure comprises applying substantially atmospheric pressure to said spacer system side of said first flexible impermeable membrane.
- 3. The method of claim 2, wherein said source of said resin is substantially at atmospheric pressure.
- 4. The method of claim 1, wherein said impermeable spacer system comprises a bubble mat.
- 5. The method of claim 4, wherein said impermeable spacer system comprises an inflatable bubble mat.
- 6. The method of claim 1, wherein said impermeable spacer system comprises a flexible sheet with a network of gaps.
- 7. The method of claim 2, wherein said impermeable spacer system comprises a flexible sheet with a network of gaps.
- 8. The method of claim 3, wherein said impermeable spacer system comprises a flexible sheet with a network of gaps.
- 9. The method of claim 1, further comprising a plurality of said bladders.
- 10. A method of molding a composite by flowing a resin into a preform comprising:
a. providing a mold surface; b. placing said preform on said mold surface; c. placing a first flexible impermeable membrane over a portion of said preform, said first impermeable membrane having a preform side adjacent said preform; d. placing a spacer system on said first flexible impermeable membrane, said first flexible impermeable membrane having a spacer system side adjacent said spacer system; e. placing a second flexible impermeable membrane over said spacer system; f. sealing said first flexible impermeable membrane to said second flexible impermeable membrane, thereby enclosing said spacer system and forming a bladder; g. providing a means of adjusting a spacer system pressure on said spacer system side of said first flexible impermeable membrane; h. placing a third flexible impermeable membrane over said second impermeable membrane and said preform; i. drawing a vacuum on said preform; j. providing a source of said resin in communication with said preform side of said first flexible impermeable membrane; k. applying a resin pressure on said preform side of said first flexible impermeable membrane that is higher than said spacer system pressure on said spacer system side of said first flexible impermeable membrane thereby creating a differential pressure that deforms said first flexible impermeable membrane into a network of gaps in said spacer system, said first flexible impermeable membrane forming temporary resin flow pathways on said preform while deformed into said network of gaps; l. flowing said resin along said temporary resin flow pathways and from said temporary resin flow pathways into said preform; m. reversing said differential pressure thereby causing said first flexible impermeable membrane to press evenly upon said preform to remove said temporary resin flow pathways; n. curing said resin in said preform to form said composite.
- 11. The method of claim 10, wherein creating said differential pressure comprises applying a vacuum to said spacer system side of said first flexible impermeable membrane and reversing said differential pressure comprises applying substantially atmospheric pressure to said spacer system side of said first flexible impermeable membrane.
- 12. The method of claim 11, wherein said source of said resin is substantially at atmospheric pressure.
- 13. The method of claim 10, wherein said spacer system comprises a link mat.
- 14. The method of claim 10, wherein said spacer system comprises a bubble mat.
- 15. The method of claim 14, wherein said spacer system comprises an inflatable bubble mat.
- 16. The method of claim 10, wherein said spacer system comprises a fabric mat.
- 17. The method of claim 10, wherein said spacer system comprises a flexible sheet with a network of gaps.
- 18. The method of claim 11, wherein said spacer system comprises a flexible sheet with a network of gaps.
- 19. The method of claim 12, wherein said spacer system comprises a flexible sheet with a network of gaps.
- 20. The method of claim 10, further comprising a plurality of said bladders.
- 21. A method for molding a composite by infusing a resin into a preform contained in a mold, comprising:
a. providing a mold surface; b. providing at least one hollow tube comprising a tube inside and a tube outside;
i. said tube outside having a tube base; ii. said mold surface surrounding at least a portion of said hollow tube and structurally adapted to hold said tube base substantially adjacent to said preform; iii. said tube base having a movable portion comprising a compliant material; iv. said movable portion being structurally adapted to move in response to a differential pressure between a tube pressure on said tube inside and a base pressure on said tube base; v. said movable portion being in an open position when said movable portion is positioned away from said preform; vi. said movable portion being in a closed position when said movable portion is positioned substantially adjacent said preform; and vii. said movable portion forming a temporary resin flow pathway on said preform when said movable portion is in said open position; c. providing a differential pressure-adjustment means for adjusting said differential pressure; d. forming said resin flow pathway by moving said movable portion to said open position; e. providing a source of said resin in communication with said temporary resin flow pathway; f. flowing said resin along said temporary resin flow pathway and from said temporary resin flow pathway into said preform; g. moving said movable portion to said closed position to remove said temporary resin flow pathway; and h. curing said resin in said preform to form said composite.
- 22. The method of claim 21 further comprising providing a tube pressure-adjustment means for adjusting said tube pressure, thereby controlling said differential pressure.
- 23. The method of claim 21 further comprising drawing a vacuum on said preform during the flowing of said resin.
- 24. The method of claim 21 wherein said hollow tube is in a channel in an extrusion.
- 25. The method of claim 21 wherein said hollow tube is in a channel in a tool.
- 26. The method of claim 23 further comprising providing an impermeable membrane that covers said hollow tube and said preform.
- 27. A method for molding a composite by infusing a resin into a preform contained in a mold, comprising:
a. providing a mold surface;
i. said mold surface having a movable portion; ii. said movable portion being in an open position when said movable portion is positioned away from said preform; iii. said movable portion being in a closed position when said movable portion is positioned substantially adjacent said preform; and iv. said movable portion and said preform forming a vacuum channel when said movable portion is in said open position; b. providing a source of vacuum in communication with said vacuum channel; c. infusing said preform with said resin; d. forming said vacuum channel by moving said movable portion to said open position; e. flowing said resin from said preform into said vacuum channel; f. moving said movable portion to said closed position; and g. curing said resin in said preform.
- 28. The method of claim 27 wherein:
a. said movable portion comprises a movable compliant material; and b. said movable compliant material is moved by a differential pressure force between said open position and said closed position.
- 29. The method of claim 28 wherein said movable compliant material comprises a portion of a hollow tube.
- 30. An apparatus for molding a composite by infusing a resin into a preform contained in a mold, comprising:
a. a mold surface; b. at least one hollow tube comprising a tube inside and a tube outside;
i. said tube outside having a tube base; ii. said mold surface surrounding at least a portion of said hollow tube and structurally adapted to hold said tube base substantially adjacent to said preform; iii. said tube base having a movable portion, comprising a compliant material; iv. said movable portion structurally adapted to move in response to a differential pressure between a tube pressure on said tube inside and a base pressure on said tube base; v. said movable portion being in an open position when said movable portion is positioned away from said preform; vi. said movable portion being in a closed position when said movable portion is positioned substantially adjacent said preform; and vii. said movable portion and said preform forming a resin flow pathway when said movable portion is in said open position; c. a means for providing a flow of said resin to said resin flow pathway; and d. a differential pressure-adjustment means for adjusting said differential pressure; whereby said resin flows along said resin flow pathway during said infusing and said movable portion is in said closed position when said resin cures.
- 31. The apparatus of claim 30 further comprising an extrusion, said extrusion having a channel, said hollow tube fitting inside said channel, whereby said hollow tube is shielded from collapse.
- 32. The apparatus of claim 30 wherein said differential pressure-adjustment means comprises:
a. a source of vacuum; b. a source of pressurized fluid; and c. a pressure regulator in fluid communication with said source of vacuum, said source of pressurized fluid, and said tube inside;
i. said pressure regulator capable of applying a predetermined vacuum pressure to said tube inside; and ii. said pressure regulator capable of applying a predetermined fluid pressure to said tube inside; whereby said differential pressure can be adjusted.
- 33. The apparatus of claim 30 including a plurality of said hollow tubes.
- 34. The apparatus of claim 30 further comprising a source of vacuum in communication with said preform.
- 35. The apparatus of claim 32 further comprising a source of vacuum in communication with said preform.
- 36. An apparatus for molding a composite by infusing a resin into a preform contained in a mold, comprising:
a. a mold surface; b. at least one hollow tube comprising a tube inside and a tube outside;
i. said tube outside having a tube base; ii. said mold surface surrounding at least a portion of said hollow tube and structurally adapted to hold said tube base substantially against said preform; iii. said tube base having a movable portion comprising a compliant material; iv. said movable portion structurally adapted to move in response to a differential pressure between a tube pressure on said tube inside and a base pressure on said tube base; v. said movable portion being in an open position when said movable portion is positioned away from said preform; vi. said movable portion being in a closed position when said movable portion is positioned substantially adjacent said preform; and vii. said movable portion and said preform forming a vacuum channel when said movable portion is in said open position; c. a means for providing vacuum to said vacuum channel; and d. a differential pressure-adjustment means for adjusting said differential pressure; whereby said vacuum channel provides a distributed source of vacuum during said infusing and said movable portion is in said closed position when said resin cures.
- 37. The apparatus of claim 36 including a plurality of said hollow tubes.
- 38. The apparatus of claim 36 further comprising an extrusion, said extrusion having a channel, said hollow tube fitting inside said channel, whereby said hollow tube is shielded from collapse.
- 39. The apparatus of claim 36 wherein said differential pressure-adjustment means comprises:
a. a source of vacuum; b. a source of pressurized fluid; and c. a pressure regulator in fluid communication with said source of vacuum, said source of pressurized fluid, and said tube inside;
i. said pressure regulator capable of applying a predetermined vacuum pressure to said tube inside; and ii. said pressure regulator capable of applying a predetermined fluid pressure to said tube inside; whereby said differential pressure can be adjusted.
- 40. A piece of molding apparatus used to infuse a resin into a preform comprising:
a. a hollow tube comprising a tube inside and a tube outside; b. said tube outside having a tube base; c. said tube base having a movable portion comprising a compliant material; d. said movable portion structurally adapted to move in response to a differential pressure between a tube pressure on said tube inside and a base pressure on said tube base; e. said hollow tube having a predetermined cross-section and pliability such that said tube base is substantially flat when said tube inside pressure minus said tube base pressure is a predetermined closure pressure, and such that said tube base forms a resin flow pathway when said tube inside pressure minus said tube base pressure is a predetermined opening pressure.
CROSS-REFERENCE TO RELATED APPLICATION
[0001] This application is a continuation-in-part of U.S. patent application Ser. No. 412,539, filed Mar. 28, 1995.
Continuation in Parts (1)
|
Number |
Date |
Country |
Parent |
08412539 |
Mar 1995 |
US |
Child |
10161442 |
Jun 2002 |
US |