Hybrid composite structure having damped metallic fibers
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B29C-070/00
B32B-025/10
B32B-005/26
B32B-005/28
B64C-001/00
출원번호
US-0752467
(2007-05-23)
등록번호
US-8951923
(2015-02-10)
발명자
/ 주소
Liguore, Salvatore L.
출원인 / 주소
The Boeing Company
대리인 / 주소
Yee & Associates, P.C.
인용정보
피인용 횟수 :
0인용 특허 :
3
초록▼
A damped composite structure is formed from a matrix material and a plurality of shape memory alloy wire fibers held in the material matrix for damping the structure. The wire fibers may be embedded in a viscoelastic interlayer to increase damping of the structure. The wire fibers may be intersperse
A damped composite structure is formed from a matrix material and a plurality of shape memory alloy wire fibers held in the material matrix for damping the structure. The wire fibers may be embedded in a viscoelastic interlayer to increase damping of the structure. The wire fibers may be interspersed with reinforcement such as carbon fibers, in tows or in a mesh of fibers. The wire fibers have an inherent material loss factor greater than approximately 0.10, and may be formed from superelastic metal alloys, such as Ni—Ti, Cu—Zn—Al, Cu—Al—Ni, OR Cu—Al—Be.
대표청구항▼
1. A damped composite structure, comprising: a matrix material;a plurality of metallic shape memory alloy wire fibers held in the material matrix for damping the structure; and,a plurality of reinforcement fibers in said material matrix. 2. The damped composite structure of claim 1, wherein the mate
1. A damped composite structure, comprising: a matrix material;a plurality of metallic shape memory alloy wire fibers held in the material matrix for damping the structure; and,a plurality of reinforcement fibers in said material matrix. 2. The damped composite structure of claim 1, wherein the material matrix includes a layer of viscoelastic material and the wire fibers are embedded in the viscoelastic material. 3. The damped composite structure of claim 2, wherein the material matrix includes a layer of resin and the layer of viscoelastic material is contained in the layer of resin. 4. The damped composite structure of claim 3, wherein the wire fibers extend from the layer of viscoelastic material into the layer of resin. 5. The damped composite structure of claim 1, wherein the wire fibers are arranged as a mesh. 6. The damped composite structure of claim 1, further comprising: carbon fibers for reinforcing the material matrix, andwherein the material matrix includes a layer of synthetic resin. 7. The damped composite structure of claim 6, wherein: the carbon fibers are arranged in a plurality of tows, andthe wire fibers are contained within the tows. 8. The damped composite structure of claim 1, wherein the shape memory alloy is selected from the group consisting of: Ni—Ti, Cu—Zn—Al, Cu—Al—Ni, Cu—Al—Be. 9. The damped composite structure of claim 8, wherein the shape memory alloy includes one of: Nb, Fe and Pt. 10. The damped composite structure of claim 1, wherein the shape memory alloy is selected from the group consisting of: Fe—C—Si, Al—Zn, Fe—Cr, Fe—Cr—Al, Co—Ni—Ti, Mg, f Fe, Ni, Mg—Ni, Mn—Cu, Mn—Cu—AL, CU—Zn—Al, CU—Al, Ni, Ni—Ti, and Fe—Co. 11. The damped composite structure of claim 1, wherein the wire fibers exhibit an inherent material loss factor greater than approximately 0.10. 12. A damped composite aircraft structural component, comprising: laminated plies of synthetic resin;a first set of fibers in the resin for reinforcing the plies; and,a second set of fibers in the resin for damping noise and vibration, the fibers in the second set being metallic shape memory alloy wires and having an inherent material loss factor greater than approximately 0.10. 13. The damped composite aircraft structural component of claim 12, wherein the first and second sets of fibers are alternately arranged in layers within the plies. 14. The damped composite aircraft structural component of claim 12, wherein: the first set of fibers are arranged in tows, andthe second set of fibers are interspersed within the tows. 15. The damped composite aircraft structural component of claim 12, wherein: the first set of fibers are arranged in parallel rows in each of the plies, andthe second set of fibers are disposed between the rows of the fibers in the first set. 16. The damped composite aircraft structural component of claim 12, wherein the second set of fibers is arranged between the first set of fibers. 17. The damped composite aircraft structural component of claim 12, wherein: certain of the plies include a layer of viscoelastic material, andthe second set of fibers are held in the layer of viscoelastic material. 18. The damped composite aircraft structural component of claim 17, wherein: the fibers in the second set thereof have ends, andthe ends of the fibers in the second set are anchored in the resin. 19. The damped composite aircraft structural component of claim 12, wherein the fibers in the first set of fibers are carbon fibers. 20. The damped composite aircraft structural component of claim 12, wherein the fibers in the second set thereof are formed from a metal alloy selected from the group consisting of: Ni—Ti, Cu—Zn—AI, Cu—Al—Ni, Cu—Al—Be.
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이 특허에 인용된 특허 (3)
Hunter, Kipplan; Liguore, Salvatore L., Composite material with improved damping characteristics and method of making same.
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