Silicon carbide composites, and methods for making same
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B32B-009/00
B32B-015/02
출원번호
US-0336626
(2003-01-03)
발명자
/ 주소
Waggoner, W. Michael
Rossing, Barry R.
Richmond, Michael A.
Aghajanian, Michael K.
McCormick, Allyn L.
출원인 / 주소
M Cubed Technologies, Inc.
대리인 / 주소
Law Office of Joffrey R. Ramberg
인용정보
피인용 횟수 :
12인용 특허 :
23
초록▼
Improved silicon carbide composites made by an infiltration process feature a metal phase in addition to any residual silicon phase. Not only are properties such as mechanical toughness improved, but the infiltrant can be so engineered as to have much diminished amounts of expansion upon solidificat
Improved silicon carbide composites made by an infiltration process feature a metal phase in addition to any residual silicon phase. Not only are properties such as mechanical toughness improved, but the infiltrant can be so engineered as to have much diminished amounts of expansion upon solidification, thereby enhancing net-shape-making capabilities. Further, multi-component infiltrant materials may have a lower liquidus temperature than pure silicon, thereby providing the practitioner greater control over the infiltration process. In particular, the infiltration may be conducted at the lower temperatures, where low-cost but effective bedding or barrier materials can terminate the infiltration process once the infiltrant has migrated through the permeable mass up to the boundary between the mass and the bedding material.
대표청구항▼
1. An article of manufacture selected from the group consisting of an air bearing support frame, a mirror substrate, a semiconductor wafer chuck, a machine tool bridge, a machine tool base and a flat panel display setter, said article comprising:a composite material comprising a silicon carbide comp
1. An article of manufacture selected from the group consisting of an air bearing support frame, a mirror substrate, a semiconductor wafer chuck, a machine tool bridge, a machine tool base and a flat panel display setter, said article comprising:a composite material comprising a silicon carbide component and a metal component distributed throughout said silicon carbide, said metal component comprising at least about 40 percent by weight of silicon and from about 40 to about 60 percent by volume of aluminum. 2. The article of claim 1, wherein said metal component comprises not less than about 50 percent by weight of said silicon.3. The article of claim 1, wherein said metal component undergoes a volumetric size change upon solidification from the molten state in the range of about negative 1 percent to about positive 3 percent.4. The article of claim 1, wherein said silicon carbide component is at least partially interconnected.5. The article of claim 1, further comprising at least one filler material distributed throughout said silicon carbide component.6. The article of claim 5, wherein said at least one filler material comprises a substance selected from the group consisting of B4C, TiC, WC, Si3N4, TiN, AlN, SiB4, TiB2 and AlB2.7. The article of claim 5, wherein said at least one filler material comprises silicon carbide.8. The article of claim 5, wherein said at least one filler material comprises a form selected from the group consisting of particulate, fiber, platelet and flake.9. The article of claim 5, wherein said at least one filler material makes up at least about 10 percent by volume of said composite material.10. The article of claim 5, wherein said at least one filler material makes up at least 59 percent by volume of said composite material.11. The article of claim 5, wherein said at least one filler material comprises bodies having a size in a range of about 1 micron to about 1 millimeter.12. The article of claim 1, made by a reaction-bonding process.13. The article of claim 12, wherein said reaction-bonding process comprises(a) in an inert environment, contacting a molten infiltrant comprising silicon and at least one other metal to a permeable mass comprising at least one filler material and not more than about 10 percent by weight of carbon, and (b) infiltrating said molten inflitrant into said permeable mass, and reacting said silicon of said molten infiltrant with at least a portion of said carbon to produce at least some silicon carbide in-situ. 14. The article of claim 13, wherein said filler material comprises at least one substance other than silicon carbide.15. The article of claim 13, wherein said in-situ silicon carbide amounts to at least about 5 percent by volume of said composite material.16. The article of claim 12, wherein said reaction bonding process produces at least some in-situ silicon carbide.17. The article of claim 16, wherein said in-situ silicon carbide makes up no more than about 24 percent by volume of said composite material.18. An article of manufacture selected from the group consisting of an electronic package and an electronic substrate, said article comprising:a composite material comprising (a) a matrix component comprising silicon carbide, (b) at least about 59 percent by volume of at least one filler material; and (c) a metal component comprising at least about 40 percent by weight of silicon and from about 40 to about 60 percent by volume of aluminum, said at least one filler material and said metal component distributed throughout said matrix component. 19. The article of claim 18, wherein said at least one filler material comprises a substance selected from the group consisting of carbides, borides, nitrides and oxides.20. The article of claim 18, wherein said filler material comprises silicon carbide.21. The article of claim 18, wherein said metal component is characterized by a volume change upon solidification of between about negative 5 percent and about positive 7 percent.22. The article of claim 18, wherein said metal component is characterized by a volume change upon solidification of between about negative 2 percent and about positive 4 percent.
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이 특허에 인용된 특허 (23)
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Kennedy Christopher R. (Newark DE) Aghajanian Michael K. (Bel Air MD) Nagelberg Alan S. (Wilmington DE), Metal matrix composite bodies containing three-dimensionally interconnected co-matrices.
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Singh Mrityunjay ; Levine Stanley R. ; Smialek James A., Method for forming fiber reinforced composite bodies with graded composition and stress zones.
Brun Milivoj K. (Ballston Lake NY) Morrison William A. (Albany NY), Method of infiltration forming a silicon carbide body with improved surface finish.
Rohatgi Pradeep K. (Milwaukee WI) Bell James A. E. (Oakville CAX) Stephenson Thomas F. (Toronto CAX), Method of making an aluminum-base metal matrix composite.
Brun Milivoj K. (Ballston Lake NY) Giddings Robert A. (Schenectady NY) Prochazka Svante (Ballston Lake NY), Silicon carbide composite with metal boride coated fiber reinforcement.
Waggoner, W. Michael; Rossing, Barry R.; Richmond, Michael A.; Aghajanian, Michael K.; McCormick, Allyn L., Silicon carbide composites and methods for making same.
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Waggoner, W. Michael; Rossing, Barry R; Rossing, legal representative, Marlene; Richmond, Michael A; Aghajanian, Michael K; McCormick, Allyn L, Silicon-containing composite bodies, and methods for making same.
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