IPC분류정보
| 국가/구분 |
United States(US) Patent
등록
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| 국제특허분류(IPC7판) |
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| 출원번호 |
US-0633684
(1984-07-25)
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발명자
/ 주소 |
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| 대리인 / 주소 |
Naigur, Marvin A.Wilson, John E.Shannon, Jr., John P.
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| 인용정보 |
피인용 횟수 :
30 인용 특허 :
16 |
초록
▼
A crack arrester for stopping a propagating ductile fracture in an object such as a pipe comprises a band defined by a plurality of continuous, high tensile strength, nonmetallic fibers which are wound around the object in intersecting relationship with the direction of propagation and are encapsula
A crack arrester for stopping a propagating ductile fracture in an object such as a pipe comprises a band defined by a plurality of continuous, high tensile strength, nonmetallic fibers which are wound around the object in intersecting relationship with the direction of propagation and are encapsulated in a resin matrix which is cured.
대표청구항
▼
1. In a crack arrestor for arresting a propagating ductile fracture in a pipe containing fluid under a pressure sufficient to subject the pipe to the possibility of a ductile fracture propagating at a high speed in a predetermined direction, wherein the crack arrestor comprises means for stopping th
1. In a crack arrestor for arresting a propagating ductile fracture in a pipe containing fluid under a pressure sufficient to subject the pipe to the possibility of a ductile fracture propagating at a high speed in a predetermined direction, wherein the crack arrestor comprises means for stopping the propagating ductile fracture, and the stopping means includes a band for encompassing and constraining said pipe, the improvement comprising: the band including a plurality of substantially unidirectional continuous, high tensile strength, non-corrodible, lightweight nonmetallic fibers encapsulated in a resin matrix, the fibers defining with the resin matrix a fluid impervious mass. 2. The crack arrestor of claim 1 wherein the fibers are glass fibers. 3. The crack arrestor of claim 2, wherein the fibers are under only sufficient tension to have allowed the fibers to be wound orderly into the band. 4. The crack arrestor of claim 2, wherein each fiber has a diameter less than 0.001 inch. 5. The crack arrestor of claim 2, wherein the fibers comprise 76%-75% of the band. 6. The crack arrestor of claim 1 wherein the resin is an epoxy. 7. The crack arrestor of claim 1 wherein the resin is a polyester. 8. The crack arrestor of claim 1 wherein the band includes a plurality of layers of the fibers. 9. The crack arrestor of claim 1 wherein the fibers are held together by cross filaments to define a mat. 10. The crack arrestor of claim 1 wherein the band is a helix. 11. The crack arrestor of claim 1 wherein the band-section crack arrestor comprises a plurality of spaced band sections, each of which has a width and thickness insufficient to stop a propagating ductile fracture, but together having sufficient strength to decelerate and stop a propagating ductile fracture. 12. The crack arrestor of claim 1 wherein the band defines edges, the band being bevelled along its edges. 13. The crack arrestor of claim 1 wherein the band has edges and an arcuate cross section, the band being thickest at its center and tapered at its edges. 14. The crack arrestor of claim 1, wherein the band has a radially inner surface, and the crack arrestor further includes a layer of mastic material defining an annulus on the radially inner surface of the band. 15. The combination of a pipe, having an axis, for containing fluid under a pressure sufficient to subject the pipe to the possibility of a ductile fracture propagating at a high speed in a predetermined direction, and a crack arrestor for arresting such a propagating ductile fracture, wherein the crack arrestor comprises means for stopping the propagating ductile fracture, the stopping means includes a band encompassing and constraining said pipe, and the band includes a plurality of substantially unidirectional, continuous, high tensile strength, non-corrodible, lightweight nonmetallic fibers encapsulated in a resin matrix, the fibers defining with the resin matrix a fluid impervious mass. 16. The combination of claim 15 wherein the band is bonded to the pipe. 17. The combination of claim 15 wherein the fibers are oriented essentially perpendicular to the direction of propagation. 18. The combination of claim 15 wherein the width of the band is less than the diameter of the pipe. 19. The combination of claim 15 wherein the band and the pipe each include a wall, and the band wall and the pipe wall each have a thickness, the thickness of the band wall being less than the thickness of the pipe wall. 20. The combination of claim 15 wherein the pipe is coated, and the crack arrestor is positioned over the coating. 21. The combination of claim 15 wherein the pipe is wrapped, and the crack arrestor is positioned ever the wrapping. 22. The combination of claim 15 wherein the pipe includes a plurality of sections, each of said sections being defined by a discrete element, a said band being positioned on some of the sections along substantially the entire length of the section, while the other sections have no band. 23. The combination of claim 15 wherein the pipe includes a plurality of sections and joints between said sections, and a said band is positioned over each joint. 24. The combination of claim 15, wherein the fibers are glass fibers. 25. The combination of claim 24, wherein the fibers are under only sufficient tension to have allowed the fibers to be wound orderly into the band. 26. The combination of claim 15 wherein each fiber has a diameter less than 0.001 inch. 27. The combination of claim 24, wherein the fibers comprise 67%-75% of the band. 28. In a crack arrestor for arresting a propagating ductile fracture in a pipe containing fluid under a pressure sufficient to subject the pipe to the possibility of a ductile fracture propagating at a high speed in a predetermined direction, wherein the crack arrestor comprises means for stopping the propagating ductile fracture, and the stopping means includes a band for encompassing and constraining said pipe, the improvement comprising: the band including a plurality of continuous, high tensile strength, non-corrodible, lightweight nonmetallic fibers encapsulated in a resin matrix, the fibers defining with the resin matrix a fluid impervious mass; said fibers being oriented substantially perpendicular to said predetermined direction of propagation. 29. In a crack arrestor for arresting a propagating ductile fracture in a pipe containing fluid under a pressure sufficient to subject the pipe to the possibility of a ductile fracture propagating at a high speed in a predetermined direction, wherein the crack arrestor comprises means for stopping the propagating ductile fracture, and the stopping means includes a band for encompassing and constraining said pipe, the improvement comprising: the band including a plurality of continuous, high tensile strength, non-corrodible, lightweight nonmetallic fibers encapsulated in a resin matrix, the fibers comprising at least 67% of the band and defining with the resin matrix a fluid impervious mass. 30. The crack arrestor of claim 29, wherein the fibers comprise no more than 75% of the band. 31. The crack arrestor of claim 29, wherein the fibers are glass fibers. 32. The combination of a pipe, having an axis, for containing fluid under a pressure sufficient to subject the pipe to the possibility of a ductile fracture propagating at a high speed in a predetermined direction, and a crack arrestor for arresting such a propagating ductile fracture, wherein the crack arrestor comprises means for stopping the propagating ductile fracture, the stopping means includes a band encompassing and constraining said pipe, and the band includes a plurality of continuous, high tensile strength, non-corrodible, lightweight nonmetallic fibers encapsulated in a resin matrix, the fibers defining with the resin matrix a fluid impervious mass; said fibers being oriented substantially perpendicular to said predetermined direction of propagation. 33. The combination of a pipe, having an axis, for containing fluid under a pressure sufficient to subject the pipe to the possibility of a ductile fracture propagating at a high speed in a predetermined direction, and a crack arrestor for arresting such a propagating ductile fracture, wherein the crack arrestor comprises means for stopping the propagating ductile fracture, the stopping means includes a band encompassing and constraining said pipe, and the band includes a plurality of continuous, high tensile strength, non-corrodible, lightweight nonmetallic encapsulated in a resin matrix, the fibers comprising at least 67% of the band and defining with the resin matrix a fluid impervious mass. 34. The combination of claim 33, wherein said fibers comprise no more than 75% of the band.
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