IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
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출원번호 |
US-0612251
(1996-03-07)
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발명자
/ 주소 |
- Tunis, III, George C.
- Seemann, III, William H.
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출원인 / 주소 |
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대리인 / 주소 |
Eckert Seamans Cherin & Mellott, LLC
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인용정보 |
피인용 횟수 :
15 인용 특허 :
22 |
초록
▼
Large composite structures are produced using a vacuum assisted resin transfer molding process incorporating a resin distribution network. The resin distribution network is provided by a textured sheet of metal formed as an integral vacuum bag and mold. The texture is formed by upraised portions on
Large composite structures are produced using a vacuum assisted resin transfer molding process incorporating a resin distribution network. The resin distribution network is provided by a textured sheet of metal formed as an integral vacuum bag and mold. The texture is formed by upraised portions on one side of the sheet which correspond with depressions on the other side. Valleys between the upraised portions form the resin distribution network. A fiber lay up is placed against the textural sheet with the upraised portions facing the lay up. Main feeder grooves are also formed directly in the sheet. Resin is supplied under vacuum to the main feeder grooves, from where it travels through the valleys of the textured sheet to impregnate the lay up.
대표청구항
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1. A method of forming a composite structure comprising:providing a tool for forming a composite structure by vacuum assisted resin transfer molding, said tool comprising:a mold surface and a vacuum bag arranged with said mold surface to form a mold cavity for receiving a part to be impregnated with
1. A method of forming a composite structure comprising:providing a tool for forming a composite structure by vacuum assisted resin transfer molding, said tool comprising:a mold surface and a vacuum bag arranged with said mold surface to form a mold cavity for receiving a part to be impregnated with resin;at least a portion of said vacuum bag being formed from a self-supporting sheet material having a texture formed by upraised portions on a first side of said sheet material, said upraised portions being closely spaced valleys defined between the upraised portions, said valleys forming a resin distribution network, said self-supporting sheet material having a predetermined shaped contour in addition to said texture, said sheet material rigid enough to retain the predetermined shaped contour as a mold in addition to retaining the resin distribution network, but flexible enough to collapse as a sheet against the part under a vacuum applied during the vacuum assisted resin transfer molding; anda main feeder channel having a cross-sectional area larger than a cross-sectional area of said valleys being provided in fluid communication with said valleys and extending along a portion of said tool to provide resin to said resin distribution network;providing the part to be molded in said mold cavity;sealing said mold cavity;connecting a source of uncured resin to said main feeder channel;connecting said mold cavity to a vacuum outlet;moving said uncured resin through said main feeder channel and said resin distribution network to said vacuum outlet to fill said part in said mold cavity to impregnate said part; andcuring said uncured resin to form a composite structure. 2. The method of claim 1, wherein, in said tool providing step, said vacuum bag and said mold are unitary. 3. The method of claim 1, wherein, in said tool providing step, said portion of said vacuum bag forms said mold surface, whereby said vacuum bag and said mold are unitary. 4. The method of claim 1, wherein, in said tool providing step, said valleys have a depth of approximately 30 thousandths of an inch. 5. The method of claim 1, wherein, in said tool providing step, said upraised portions are generally hexagonal in shape and have a longest dimension between ⅜ inch and {fraction (7/16)} inch. 6. A method of forming a composite structure comprising:providing a tool for forming a composite structure by vacuum assisted resin transfer molding said tool comprising:a mold surface and a vacuum bag arranged with said mold surface to form a mold cavity for receiving a part to be impregnated with resin;at least a portion of said vacuum bag being formed from a self-supporting sheet material having a texture formed by upraised portions on a first side of said sheet material, said upraised portions being closely spaced valleys defined between the upraised portions, said valleys forming a resin distribution network said self-supporting sheet material having a predetermined shape, said sheet material rigid enough to retain the predetermined shape as a mold but flexible enough to collapse as a sheet against the part under a vacuum applied during the vacuum assisted resin transfer molding; anda main feeder channel having a cross-sectional area larger than a cross-sectional area of said valleys being provided in fluid communication with said valleys and extending along a portion of said tool to provide resin to said resin distribution network;providing the part to be molded in said mold cavity;sealing said mold cavity;connecting a source of uncured resin to said main feeder channel;connecting said mold cavity to a vacuum outlet;moving said uncured resin through said main feeder channel and said resin distribution network to said vacuum outlet to fill said part in said mold cavity to impregnate said part;curing said uncured resin to form a composite structure, andwherein, in said tool providing step, said sheet of material forming said portion of said vacuum bag comprises a sh eet of thin gauge steel. 7. The method of claim 1, wherein, in said tool providing step, said sheet of material forming said portion of said vacuum bag has a thickness of 0.25 inch or less. 8. The method of claim 1, wherein in said tool providing step, said tool further comprises a vacuum outlet channel formed in said vacuum bag around a perimeter of said tool. 9. The method of claim 1, wherein said step of connecting said source of uncured resin to said feeder channel comprises forming a hole in said vacuum bag and inserting a supply tube from said source into said feeder channel. 10. The method of claim 1, wherein, in said tool providing step, said sheet material comprises a metal material, a plastic material, or a composite material comprising a metal and plastic laminate. 11. The method of claim 1, wherein, in said tool providing step, said sheet material further comprises depressions corresponding to said upraised portions on a second side of said sheet material.
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