Alumina-silica-based fiber, ceramic fiber, ceramic fiber complex, retaining seal material, production method thereof, and alumina fiber complex production method
IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0274109
(2008-11-19)
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등록번호 |
US-8790581
(2014-07-29)
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우선권정보 |
JP-2001-157701 (2001-05-25); JP-2001-157702 (2001-05-25); JP-2001-157703 (2001-05-25); JP-2001-157704 (2001-05-25); JP-2001-157705 (2001-05-25); JP-2001-164915 (2001-05-31) |
발명자
/ 주소 |
- Tanahashi, Kazutomo
- Doushita, Masakage
- Takahashi, Hidetomo
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출원인 / 주소 |
|
대리인 / 주소 |
Oblon, Spivak, McClelland, Maier & Neustadt, L.L.P.
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인용정보 |
피인용 횟수 :
0 인용 특허 :
14 |
초록
▼
A manufacturing method by which alumina-silica based fibers excellent in mechanical strength can be readily and securely obtained. The method obtains precursor fibers as a material by using an alumina-silica based fiber spinning stock solution for use in an inorganic salt method. Next, the precursor
A manufacturing method by which alumina-silica based fibers excellent in mechanical strength can be readily and securely obtained. The method obtains precursor fibers as a material by using an alumina-silica based fiber spinning stock solution for use in an inorganic salt method. Next, the precursor fibers are heated under an environment which makes it difficult to carry out an oxidizing reaction on the carbon component contained in the precursor fibers. Thus, the precursor fibers are sintered to obtain alumina-silica based fibers.
대표청구항
▼
1. A holding seal material comprising: a sintered body comprising a fiber aggregation comprising alumina-silica based ceramic fibers aggregated into a mat shape, the sintered body being configured to be placed in a gap between a ceramic body capable of allowing a fluid to flow through the inside the
1. A holding seal material comprising: a sintered body comprising a fiber aggregation comprising alumina-silica based ceramic fibers aggregated into a mat shape, the sintered body being configured to be placed in a gap between a ceramic body capable of allowing a fluid to flow through the inside thereof and a metal shell covering the outer circumference of the ceramic body,wherein the sintered body comprises a sintered cross-linking bridge comprising a ceramic adhesive locally provided at an overlapping area of the alumina-silica based fibers and connecting adjacent ones of the alumina-silica based fibers together in the overlapping area of the alumina-silica based fibers. 2. The holding seal material according to claim 1, wherein said ceramic adhesive comprises a substance included in said ceramic fiber. 3. The holding seal material according to claim 1, wherein said ceramic fibers are alumina-silica based fibers, and said ceramic adhesive comprises alumina as a main component. 4. The holding seal material according to claim 1, wherein the sintered body comprises the ceramic adhesive in an amount of 1 to 8% by weight. 5. The holding seal material according to claim 1, wherein said ceramic body includes a catalyst carrier, and the sintered body is configured to be wound around the catalyst converter and fitted to the metal shell. 6. The holding seal material according to claim 1, wherein the sintered body placed in the gap between the ceramic body and the metal shell has a reduction in face pressure of less than 2% over a 100 hour period. 7. A holding seal material comprising: a sintered body comprising a fiber aggregation comprising alumina-silica based ceramic fibers aggregated into a mat shape, the sintered body being configured to be placed in a gap between a ceramic body capable of allowing a fluid to flow through the inside thereof and a metal shell covering the outer circumference of the ceramic body,wherein the sintered body comprises a sintered cross-linking bridge comprising a ceramic adhesive locally provided at an overlapping area of the alumina-silica based fibers which partially bonds said alumina-silica based ceramic fibers to each other and connects adjacent ones of the alumina-silica based ceramic fibers together in the overlapping area of the alumina-silica based ceramic fibers. 8. The holding seal material according to claim 7, wherein the ceramic adhesive comprises a substance included in the ceramic fibers. 9. The holding seal material according to claim 7, wherein the ceramic fibers are alumina-silica based fibers, and the ceramic adhesive comprises alumina as a main component. 10. The holding seal material according to claim 7, wherein the sintered body comprises the ceramic adhesive in an amount of 1 to 8% by weight. 11. The holding seal material according to claim 7, wherein said ceramic body includes a catalyst carrier, and the sintered body is configured to be wound around the catalyst converter and fitted to the metal shell. 12. The holding seal material according to claim 7, wherein the sintered body placed in the gap between the ceramic body and the metal shell has a reduction in face pressure of less than 2% over a 100 hour period. 13. A holding seal material which comprises alumina-silica based ceramic fibers aggregated into a mat shape as a constituent element, and is placed in a gap between a ceramic body capable of allowing a fluid to flow through the inside thereof and a metal shell covering the outer circumference of the ceramic body, wherein, after the alumina-silica based ceramic fibers are obtained through a first sintering process to sinter precursor fibers, a second sintering process is performed to fire the ceramic fibers and a ceramic adhesive and the alumina-silica based ceramic fibers are partially bonded to each other by the sintered ceramic adhesive comprising a ceramic adhesive locally provided at an overlapping area of the alumina-silica based fibers and connecting adjacent ones of the alumina-silica based ceramic fibers together in the overlapping area of the alumina-silica based ceramic fibers. 14. The holding seal material according to claim 13, wherein the sintered body placed in the gap between the ceramic body and the metal shell has a reduction in face pressure of less than 2% over a 100 hour period.
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Everitt George F. (St. Paul MN) Johnson Terence P. (St. Paul MN) Pham Lien-Huong A. (St. Paul MN), Oxidation resistant alumina-silica articles containing silicon carbide and carbon.
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Everitt George F. (Lake Elmo MN) Johnson Terence P. (Hastings MN) Pham Lien-Huong T. (Saint Paul MN), Oxidation resistant carbon containing alumina-silica articles.
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Horikiri ; Shozo ; Tsuji ; Kozo ; Abe ; Yasuaki ; Fukui ; Akio ; Ichiki ; Eiichi, Process for producing alumina fiber or alumina-silica fiber.
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Schleinitz Henry M. (Kennett Square PA), Separation device of cordierite ceramic and
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