IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
UP-0541620
(2006-09-29)
|
등록번호 |
US-7818945
(2010-11-15)
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발명자
/ 주소 |
- Gregg, Paul S.
- Kismarton, Max U.
- Will, Jeff D.
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
2 인용 특허 :
9 |
초록
▼
Composite structural members and methods for forming the same are disclosed. In one embodiment, a composite structural member includes a central structural portion that extends in a first direction and having a first flange portion and a second flange portion that are spaced apart in a second direct
Composite structural members and methods for forming the same are disclosed. In one embodiment, a composite structural member includes a central structural portion that extends in a first direction and having a first flange portion and a second flange portion that are spaced apart in a second direction perpendicular to the first direction by a web portion, the web portion further including a periodic or a non-periodic undulation extending in the first direction. A first reinforced polymer-based substrate is fixedly coupled to the first flange portion, and a second reinforced polymer-based substrate is fixedly coupled to the second flange portion.
대표청구항
▼
What is claimed is: 1. A composite structural member, comprising: a central structural portion extending in a first direction and including first and second flange portions spaced apart in a second direction, the first and second flanges being connected by a web having a planar section, and a nonpl
What is claimed is: 1. A composite structural member, comprising: a central structural portion extending in a first direction and including first and second flange portions spaced apart in a second direction, the first and second flanges being connected by a web having a planar section, and a nonplanar section; wherein said web has a thickness that varies in said first direction; a first reinforced polymer-based substrate secured to the first flange portion; and a second reinforced polymer-based substrate secured to the second flange portion. 2. The composite structural member of claim 1, wherein the non-planar portion comprises at least one of a periodic undulation portion and a non-periodic undulation portion. 3. The composite structural member of claim 1, wherein the non-planar portion includes a periodic undulation comprising at least one of an approximately sinusoidal undulation, a triangular wave undulation and a square wave undulation. 4. The composite structural member of claim 1, wherein the web portion has a depth extending between the first flange and the second flange, and the web depth varies in the first direction. 5. The composite structural member of claim 2, wherein the non-planar portion is a periodic undulation having a period and an amplitude, and at least one of the period and the amplitude varies in the first direction. 6. The composite structural member of claim 1, wherein at least one of the first reinforced polymer-based substrate and the second reinforced polymer-based substrate is a fiber reinforced substrate having layers of fibers positioned in the substrate in a predetermined pattern, wherein the predetermined pattern comprises a first layer oriented at an angle α with respect to a selected reference direction, a second layer oriented at an angle −α with respect to the reference direction, a third layer oriented at an angle β with respect to the reference direction, and a fourth layer oriented at an angle −β with respect to the reference direction, wherein angle α is between approximately 1 and 20 degrees and angle β is between approximately 55 and 80 degrees. 7. The composite structural member of claim 6, wherein the angle α is between approximately 3 and 12 degrees, and the angle β is between approximately 55 and 75 degrees. 8. The composite structural member of claim 6, wherein the predetermined pattern further comprises at least about 80% first and second layers, and 20% third and fourth layers. 9. The composite structural member of claim 6, wherein the fiber reinforced substrate is a graphite fiber reinforced substrate. 10. The composite structural member of claim 1, wherein: each of the first and second flange portions is welded to the web, and each of the first and second flange portions has a thickness 1 to 3 times greater than a thickness of the web. 11. The composite structural member of claim 1, further comprising a first adhesive layer that bonds the first reinforced polymer-based substrate to a surface of the first flange portion, and a second adhesive layer that bonds the second reinforced polymer-based substrate to a surface of the second flange portion. 12. The composite structural member of claim 1, wherein the central structural portion is comprised of one of aluminum, titanium and steel. 13. A method of fabricating a composite structural member, comprising: (A) forming a first web portion into a desired non-planar shape; (B) forming a second web portion into a generally planar shape; wherein at least one of said first web portion and said second web portion formed has a thickness that varies in a longitudinal direction of said composite structural member; (C) forming a web by joining the first and second web portions formed in step (A) and (B), respectively; (D) joining at least one flange portion to the web formed in step (C); and (E) joining a reinforced polymer-based substrate to the at least one flange portion. 14. The method of claim 13, wherein step (A) includes forming said first web portion into at least one of a periodic undulating shape and a non-periodic undulating shape. 15. The method of claim 13, wherein step (A) includes: forming said first web section in a first thickness, forming a second web section in a second thickness less than the first thickness, and joining the first and second web sections together. 16. A structural beam for aerospace vehicles, comprising: first and second spaced apart flanges; a web connecting the first and second flanges and having a thickness that varies in the direction of the length of the beam, the web further having a planar section and a nonplanar section, said nonplanar section comprising an undulating portion; and, a reinforced polymer-based substrate secured to at least a Portion of one of the first and second flanges. 17. The structural beam of claim 16, wherein the planar section includes a flat portion joined to the undulating portion. 18. The structural beam of claim 16, wherein the undulating portion is a periodic undulation. 19. The structural beam of claim 17, wherein: the undulating portion includes first and second sections, and the flat portion of the web is between the first and second sections of the undulating portion. 20. The structural beam of claim 17, wherein: each of the first and second flanges is welded to the web, and each of the first and second flanges has a thickness 1 to 3 times greater than a thickness of the web. 21. The structural beam of claim 16, wherein the undulating portion includes a periodic undulation comprising at least one of an approximately sinusoidal undulation, a triangular wave undulation and a square wave undulation. 22. The structural beam of claim 16, wherein the web has a depth extending between the first flange and the second flange, and the web depth varies in the direction of the length of the beam. 23. The structural beam of claim 16, wherein at least one of the first reinforced polymer-based substrate and the second reinforced polymer-based substrate is a fiber reinforced substrate having layers of fibers positioned in the substrate in a predetermined pattern, wherein the predetermined pattern comprises a first layer oriented at an angle α between approximately 1 and 20 degrees with respect to a selected reference direction, a second layer oriented at an angle −α with respect to the reference direction, a third layer oriented at an angle β with respect to the reference direction, and a fourth layer oriented at an angle −β with respect to the reference direction, wherein angle α is between approximately 1 and 20 degrees and angle β is between approximately 55 and 80 degrees. 24. The structural beam of claim 23, wherein the angle α is between approximately 3 and 12 degrees, and the angle β is between approximately 55 and 75 degrees. 25. The structural beam of claim 23, wherein the predetermined pattern further comprises at least about 80% first and second layers, and 20% third and fourth layers. 26. The structural beam of claim 16, wherein the fiber reinforced substrate is a graphite fiber reinforced substrate.
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