A woven preform for a reinforced composite material, which may be woven flat and folded into shape. The preform has a three-dimensional weave architecture with fill fibers woven to provide layer-to-layer interlocking of layers of warp fiber as well as interlocking of fibers within each layer. At lea
A woven preform for a reinforced composite material, which may be woven flat and folded into shape. The preform has a three-dimensional weave architecture with fill fibers woven to provide layer-to-layer interlocking of layers of warp fiber as well as interlocking of fibers within each layer. At least two legs extend from a base, the base and legs each having at least two layers of warp fibers. The legs may be parallel or angled to each other, or may have a variable width clevis in between. The outer ends of the base and/or the legs preferably have tapers formed from terminating layers of warp fibers in a stepped pattern.
대표청구항▼
1. A method of forming a variable width clevis in a woven preform, the method comprising the steps of: (a) providing a plurality of adjacent layers, each layer having a plurality of warp fibers, the warp fibers being parallel to each other and forming vertical columns;(b) weaving a plurality of fill
1. A method of forming a variable width clevis in a woven preform, the method comprising the steps of: (a) providing a plurality of adjacent layers, each layer having a plurality of warp fibers, the warp fibers being parallel to each other and forming vertical columns;(b) weaving a plurality of fill fibers with the layers of warp fibers to form a base and two or more legs extending from the base, wherein the fill fibers interlock the layers of the base, the layers of each leg, and the warp fibers within each layer; and(c) selectively dropping one or more warp fibers out of a first portion of the preform that forms a first leg, thereby widening the width of a clevis formed between said two or more legs, or selectively adding one or more warp fibers into said first portion of the preform, thereby narrowing the width of said clevis formed between said two or more legs or doing both wherein the width of the clevis varies at least along the length of the preform. 2. The method according to claim 1, further comprising the step of simultaneously adding or removing warp fibers in a second portion of the preform. 3. The method according to claim 1, wherein the columns of warp fibers include central columns of warp fibers located between the fill fibers connecting one of the legs to the base and the fill fibers connecting the other of the legs to the base, the central columns comprising an odd number of columns and allowing for a substantially mirror-image weave pattern about a central plane of symmetry of the preform. 4. The method according to claim 1, wherein the columns of warp fibers include central columns of warp fibers located between the fill fibers connecting one of the legs to the base and the fill fibers connecting the other of the legs to the base, the central columns comprising an even number of columns and allowing for a substantially asymmetrical weave pattern about a central plane of the preform. 5. The method according to claim 3, wherein the columns of warp fibers include separator columns of warp fibers adjacent opposite lateral sides of the central columns, each separator column dividing portions of the fill fibers into two groups, one group extending between the base and the leg from between the central set of columns and the adjacent separator column, the other group extending from between the separator column and the columns laterally outward of the separator column. 6. The method according to claim 4, wherein the columns of warp fibers include separator columns of warp fibers adjacent opposite lateral sides of the central columns, each separator column dividing portions of the fill fibers into two groups, one group extending between the base and the leg from between the central set of columns and the adjacent separator column, the other group extending from between the separator column and the columns laterally outward of the separator column. 7. The method according to claim 1, wherein the base has more layers than each of the legs or vice versa. 8. The method according claim 1, wherein edges of the base and/or the legs are formed tapered. 9. The method according to claim 1, wherein the legs are perpendicular or non-perpendicular or angled to the base. 10. A woven preform with a variable width clevis, the preform comprising: a plurality of adjacent layers, each layer having a plurality of warp fibers, the warp fibers being parallel to each other and forming vertical columns;a plurality of fill fibers woven among the layers of warp fibers to form a base and two or more legs extending from the base, the base and each leg being formed from at least two layers of warp fibers, the fill fibers interlocking the layers of the base, the layers of each leg, and the warp fibers within each layer; anda clevis formed between said two or more legs, wherein the width of the clevis varies at least along the length of the preform. 11. The preform according to claim 10, wherein said variable width clevis is formed by selectively dropping out one or more warp fibers from a first portion of the preform that forms a first leg in order to widen the width of a clevis formed between said two or more legs, or selectively adding one or more warp fibers into said first portion of the preform to narrow the width of said clevis formed between said two or more legs or doing both. 12. The preform according to claim 10, wherein the columns of warp fibers include central columns of warp fibers located between the fill fibers connecting one of the legs to the base and the fill fibers connecting the other of the legs to the base, the central columns comprising an odd number of columns and allowing for a substantially mirror-image weave pattern about a central plane of symmetry of the preform. 13. The preform according to claim 10, wherein the columns of warp fibers include central columns of warp fibers located between the fill fibers connecting one of the legs to the base and the fill fibers connecting the other of the legs to the base, the central columns comprising an even number of columns and allowing for a substantially asymmetrical weave pattern about a central plane of the preform. 14. The preform according to claim 12, wherein the columns of warp fibers include separator columns of warp fibers adjacent opposite lateral sides of the central columns, each separator column dividing portions of the fill fibers into two groups, one group extending between the base and the leg from between the central set of columns and the adjacent separator column, the other group extending from between the separator column and the columns laterally outward of the separator column. 15. The preform according to claim 13, wherein the columns of warp fibers include separator columns of warp fibers adjacent opposite lateral sides of the central columns, each separator column dividing portions of the fill fibers into two groups, one group extending between the base and the leg from between the central set of columns and the adjacent separator column, the other group extending from between the separator column and the columns laterally outward of the separator column. 16. The preform according to claim 10, wherein the base has more layers than each of the legs or vice versa. 17. The preform according claim 10, wherein edges of the base and/or the legs are tapered. 18. The preform according to claim 10, wherein the legs are perpendicular or non-perpendicular or angled to the base.
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