High temperature erosion resistant coating and material containing compacted hollow geometric shapes
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B32B-003/00
B32B-003/26
B32B-007/12
B32B-018/00
출원번호
US-0467237
(1999-12-20)
발명자
/ 주소
Merrill, Gary Brian
Morrison, Jay Alan
출원인 / 주소
Siemens Westinghouse Power Corporation
인용정보
피인용 횟수 :
47인용 특허 :
30
초록▼
A material system (60) contains close packed hollow shapes (50, 70) having a dense wall structure (52, 66), which are bonded together and which may contain a matrix binder material (56) between the shapes, where the system has a stable porosity, and is abradable and thermally stable at temperatures
A material system (60) contains close packed hollow shapes (50, 70) having a dense wall structure (52, 66), which are bonded together and which may contain a matrix binder material (56) between the shapes, where the system has a stable porosity, and is abradable and thermally stable at temperatures up to possibly 1700° C., where such systems are useful in turbine apparatus.
대표청구항▼
1. A material system comprising a substantially close packed array of generally contacting, geometric shapes having a coordination number greater than or equal to 1 and having a 70% to 100% dense wall structure, which are bonded together, and which material system has a constrained stabilized porosi
1. A material system comprising a substantially close packed array of generally contacting, geometric shapes having a coordination number greater than or equal to 1 and having a 70% to 100% dense wall structure, which are bonded together, and which material system has a constrained stabilized porosity and is abradable, thermally insulating, and thermally stable at temperate up to at least 1600° C., and where the geometric shapes are arranged in a three-dimensional chain structure. 2. The material system of claim 1, where the geometric shapes have a wall thickness greater than about 100 micrometers. 3. The material system of claim 1, where the system is from 15 vol. % to 90 vol. % porous. 4. The material system of claim 1, where the coordination number of the shapes is from 3 to 14, and the system is from 40 vol. % to 70 vol. % porous for turbine insulating and abradable coatings. 5. The material system of claim 1, where the coordination number of substantially all of the shapes is from 5 to 8. 6. The material systemof claim 1, where the shapes are hollow spheres having sizes between 200 micrometers and 500 micrometers diameter. 7. The material system of claim 1, where the shapes are spherical and the wall thickness-to-radius ratio of the hollow spheres are between 0.05 to 0.50. 8. The material system of claim 1, where the shapes are spherical and any large voids within the hollow spheres are separated by at least 2× the sphere wall thickness. 9. The material system of claim 1, where the system is used as an abradable shroud seal layer in a turbine assembly. 10. The material system of claim 1, where the system is used as a thermal barrier for vanes, transitions and combustors in a turbine assembly. 11. The material system of claim 1, where the system is used as a thermal barrier layer on a turbine component in a turbine assembly. 12. A material system comprising a substantially close packed array of generally contacting geometric shapes having a coordination number greater than or equal to 1 and having a 70% to 100% dense wall structure, which are bonded together, and which material system has a constrained stabilized porosity and is abradable, thermally insulating, and thermally stable at temperatures up to at least 1600° C., and where the system is disposed on a substrate. 13. The material system of claim 12, where the shapes are hollow elongated spheroids or other hollow geometric shapes of low aspect ratio, either randomly oriented or preferentially oriented parallel or perpendicular to the substrate surface and having aspect ratios less than 5-to-1 and lengths between 200 micrometers and 5000 micrometers. 14. A material system comprising an array of generally contacting spheres having a coordination number of from 5 to 12, a wall thickness greater than about 100 micrometers, which are bonded together into a three-dimensional structure, where the space between the spheres is at least partly filled with a material comprising a ceramic binder, to provide a system that is from 15 vol. % to 90 vol. % porous and thermally stable at temperatures up to at least 1600° C. 15. The material system of claim 14, wherein the spheres are hollow.
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