Reinforced stiffeners and method for making the same
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B32B-003/08
B29C-070/86
B29D-099/00
B64C-001/06
B64C-003/18
B32B-003/04
B64C-001/00
출원번호
US-0928760
(2013-06-27)
등록번호
US-9981444
(2018-05-29)
발명자
/ 주소
Deobald, Lyle R.
Morris, John D.
Lee, Karl B.
Marcoe, Jeffery L.
Iden, Mark C.
Harris, Christopher G.
출원인 / 주소
THE BOEING COMPANY
대리인 / 주소
Yee & Associates, P.C.
인용정보
피인용 횟수 :
0인용 특허 :
29
초록▼
A composite stiffener is fabricated using preforms of laminated, unidirectional composite tape. The stiffener includes a void that is reinforced by a filler wrapped with a structural adhesive. The surfaces of the preforms surrounding the void include a layer of composite fabric which is bonded to th
A composite stiffener is fabricated using preforms of laminated, unidirectional composite tape. The stiffener includes a void that is reinforced by a filler wrapped with a structural adhesive. The surfaces of the preforms surrounding the void include a layer of composite fabric which is bonded to the filler by the adhesive, thereby increasing the toughness of stiffeners around the void and improving pull-off strength of the stiffener.
대표청구항▼
1. A composite stiffener, comprising: first, second and third members formed from laminated composite tape, the first and second members defining a web and a pair of flanges extending from the web, the third member being joined to the flanges and extending generally transverse to the web, the first,
1. A composite stiffener, comprising: first, second and third members formed from laminated composite tape, the first and second members defining a web and a pair of flanges extending from the web, the third member being joined to the flanges and extending generally transverse to the web, the first, second and third composite members intersecting to form a void, at least the first and second members comprising unidirectional fibers;a filler disposed in and substantially filling the void, the filler comprising a composite laminate;at least one layer of composite fabric disposed across the first member and the second member in the area of the filler, the layer of composite fabric comprising woven or knitted fibers having at least one orientation that extends traverse to an orientation of fibers in at least one of the first member or the second member; and,a layer of adhesive wrapped around and surrounding the filler and joining the filler to the composite fabric. 2. The composite stiffener of claim 1, wherein the first and second members include radius areas between the web and each of the flanges, and the layer of composite fabric covers the radius areas in each of the first member and the second member. 3. The composite stiffener of claim 1, wherein the layer of adhesive includes a folded sheet of structural adhesive surrounding a surface of the filler. 4. The composite stiffener of claim 1, wherein the at least one layer of composite fabric includes graphite fibers held in an epoxy matrix. 5. The composite stiffener of claim 1, wherein the layer of adhesive extends beyond the filler into an interfacial layer between the third member and the pair of flanges. 6. The composite stiffener of claim 1, wherein the at least one layer of composite fabric of the composite members are offset relative to each other. 7. A composite stiffener, comprising: a pair of composite channels joined together, each of the channels including a web, flanges extending from the web, and radius areas between the web and each of the flanges, each composite channel comprising laminated layers of composite tape having unidirectional reinforcing fibers;a base extending transverse to the web and joined to each of the flanges, the base comprising laminated layers of composite tape having unidirectional reinforcing fibers, the radius areas of the channels and the base forming at least one radius filler zone;a reinforcing member filling the radius filler zone, the reinforcing member comprising a titanium member;a first layer of composite fabric covering a first radius area defined by one of the channels and one of the flanges, the first layer of composite fabric comprising woven, bi-directional tape, the layer positioned such that at least one fabric orientation of the layer is substantially transverse the unidirectional reinforcing fibers of the pair of composite channels;a second layer of composite fabric covering a second radius area defined by a second of the channels and the flanges, the second layer of composite fabric comprising woven, bi-directional tape, the second layer positioned such that at least one fabric orientation of the second layer is substantially transverse the unidirectional reinforcing fibers of the pair of composite channels;a third layer of composite fabric covering an area of the base in the area of the radius filler zone, the third layer of composite fabric comprising woven, bi-directional tape, the third layer positioned such that at least one fabric orientation of the third layer is substantially transverse the unidirectional reinforcing fibers of the base; and,a layer of adhesive wrapped around all sides of the reinforcing member so as to surround the reinforcing member and joining the reinforcing member to the first layer of composite fabric and the second layer of composite fabric. 8. The composite stiffener of claim 7, wherein the woven, bi-directional tape comprises graphite. 9. The composite stiffener of claim 7, wherein the layer of adhesive includes a sheet of structural adhesive fully wrapped around the filler, and wherein the layer of adhesive partially bleeds into at least one layer of fabric. 10. The composite stiffener of claim 7, wherein the layer of adhesive extends beyond the radius filler zone into interfacial layers between the channels and between the base and each of the flanges. 11. The composite stiffener of claim 7, the channels are generally C-shape in cross section. 12. A composite stiffener for aircraft applications, comprising: an I-section structure formed of laminated composite tape and including a web and first and second sets of flanges on each end of the web, the structure including a pair of C-channels, a base, and a cap, the C-channels including radius areas between the web and the flanges and being joined together face-to-face to define the web, the cap being joined to the first set of the flanges and the base being joined to the second set of flanges, the cap and the base each intersecting the web in the radius areas to define a radius filler zone, each C-channel comprising laminated layers of composite tape having unidirectional reinforcing fibers, the base comprising laminated layers of composite tape having unidirectional reinforcing fibers;a first layer of composite fabric covering areas of the I-section structure defining the radius filler zone, the first layer contacting both flanges of the C-channels; the first layer of composite fabric comprising woven, bi-directional tape, the layer positioned such that at least one fabric orientation of the layer is substantially transverse the unidirectional reinforcing fibers of the C-channels;a second layer of composite fabric covering an area of the base in the area of the radius filler zone, the second layer of composite fabric comprising woven, bi-directional tape, the second layer positioned such that at least one fabric orientation of the second layer is substantially transverse the unidirectional reinforcing fibers of the C-channels;a reinforcing filler disposed in the radius filler zone, the reinforcing filler comprising a hybrid of composite laminate and formed unidirectional composite tape; anda layer of adhesive wrapped around all sides of the reinforcing filler and joining the reinforcing filler to the first layer of composite fabric and the second layer of composite fabric in the radius filler zone. 13. The composite stiffener of claim 12, wherein the layer of adhesive further extends beyond the radius filler zone into an interfacial layer between the base and a set of flanges of the I-section structure.
Goad Robert C. (San Diego CA) Krohn Fritz F. W. (Rancho Santa Fe CA) Peddie Gerald D. (Bonita CA), Apparatus for continuously forming composite shapes.
Kirkwood Brad L. (Kent WA) Stepan Michael M. (Langley WA) Patt Paul J. (Bellevue WA), Method for composite welding using a hybrid metal webbed composite beam.
Grantham,Kent; Harrison,Thomas D.; Kay,Robert M.; Kuss,Michael R.; Turnmire,William W.; Venskus,Mark K.; Whitcomb,Tory R.; Christie, legal representative,Rose; Christie, deceased,Peter S., Structural panels for use in aircraft fuselages and other structures.
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