Claims
- 1. The method of lining a body having a plurality of intersecting cavities including the steps of
- nickel plating the walls of said cavities,
- securing and sealing a thin hollow metal sealed structure within the intersecting body cavities in spaced relation to the walls of the cavities to provide an interconnected sealed space between said structure and the walls of said cavities with at least a portion of the thin hollow metal sealed structure blocking the intersecting body cavities,
- filling said interconnected sealed space with metal powder,
- evacuating gas from said interconnected sealed space,
- subjecting the body with the sealed structure and metal powder therein to a temperature of approximately 2100.degree. F. and a pressure of approximately 15,000 psi for a period of approximately two hours, to consolidate the metal powder into a dense uniform interconnected lining in said cavities,
- cooling the lined body, and
- machining the lined cavities to the desired dimensions and to remove the portion of the thin hollow metal sealed structure blocking communication between the body cavities.
- 2. The method according to claim 1 wherein
- said machining step removes the thin metal sealed structure from the interior of the lined cavities.
- 3. The method of applying a corrosion resistant lining to intersecting passages of a high strength pressure vessel comprising
- nickel plating said intersecting passages,
- securing and sealing a thin hollow yieldable metal mold in spaced relationship to the passages to be lined to provide an interconnected sealed space lining said passages with at least a portion of said thin hollow metal mold blocking the intersecting passages,
- filling the space between the passages and the mold with metal powder,
- drawing a vacuum in the space,
- subjecting the mold, metal powder and pressure vessel to elevated temperature and pressure sufficient to consolidate the metal powder into a dense uniform interconnected metal lining in the passages, and
- machining the .[.consolidated metal powder.]. .Iadd.material in the lined passages .Iaddend.to remove the portion of said thin hollow metal mold blocking communication between said passages.
- 4. The method according to claim .[.6.]. .Iadd.3 .Iaddend.wherein
- said vessel is a high strength alloy steel and said lining is a stainless steel.
- 5. The method of producing a lined valve structure from a body having a chamber and flow passages connected therewith including the steps of
- machining the walls of the chamber and the flow passages over-sized in a valve body,
- nickel plating the machined walls of the chamber and the flow passages,
- inserting a stainless steel can into the chamber, said can being sized to be spaced from the machined, nickel-plated walls of the chamber, said can having a sleeve extending through and sealed to the sidewall of said can,
- inserting a stainless steel tube into the body flow passages and through the sleeve, said sleeve being spaced from the machined, nickel-plated walls of the flow passages,
- securing end closure rings around the open ends of said can and said stainless steel tube,
- securing said end closure rings to the exterior of said valve body to ensure that said can and said sleeve are spaced uniformly from the machined walls of the body,
- one of said closure rings having a fill tube extending therethrough,
- flowing a stainless steel metal powder through said fill tube into the space in said cavity and passages surrounding said can and said tube,
- vibrating said valve body to ensure complete filling of the space with the metal powder,
- withdrawing gas from said space to reduce the pressure therein,
- closing and sealing the fill tube,
- heating the body, can, sleeve and metal powder under forming pressure to forming temperature in an autoclave,
- maintaining the temperature and pressure in the autoclave for sufficient time to cause the metal powder to be consolidated into a lining,
- allowing the lined body to cool, and
- machining the lined chamber and passages both to their desired dimension and to provide communication between the interiors of said stainless steel can and said stainless steel tube.
- 6. The method of producing a lined valve structure from a body having a chamber and flow passages connected therewith including the steps of
- machining the walls of the chamber and flow passages over-sized in a valve body,
- nickel plating the machined walls of the chamber and the flow passages,
- inserting a stainless steel can into the chamber, said can being sized to be spaced from the machined, nickel-plated walls of the chamber,
- inserting a can into the body flow passages, said can being sized to be spaced from the machined, nickel-plated walls of the flow passages and from the can in the chamber,
- securing end closure rings around the open ends of said cans,
- securing said end closure rings to the exterior of said valve body to ensure that said cans are spaced uniformly from the machined walls of the body, one of said closure rings having a fill tube extending therethrough,
- flowing a stainless steel metal powder through said fill tube into the space in said cavity and passages surrounding said cans,
- vibrating said valve body to ensure complete filling of the space with the metal powder,
- withdrawing gas from said space to reduce the pressure therein,
- closing and sealing the fill tube,
- heating the body, cans, and the metal powder under forming pressure to forming temperature in an autoclave,
- maintaining the temperature and pressure in the autoclave for sufficient time to cause the metal powder to be consolidated into a lining,
- allowing the lined body to cool, and
- machining the lined chamber and passages both to their desired dimensions and to provide communication between the interiors of said cans.
- 7. The method of lining a body having a plurality of intersecting cavities including the steps of
- positioning a thin hollow metal structure within each of said cavities of said body in spaced relation to the walls of said cavities with at least a portion of said thin hollow metal structure blocking the intersection of the body cavities,
- securing said thin hollow metal structure to said body within each of said cavities to provide an interconnected space within said cavities,
- filling said space with metal powder,
- evacuating gas from said space,
- subjecting said body, said structures, and said powder to elevated temperature and pressure sufficient to consolidate the metal powder into a dense uniform interconnected metal lining said cavities,
- removing excess material and the portion of the thin hollow metal structure blocking the intersection of the body cavities to complete the desired lined intersecting cavities and to provide communication therebetween.
- 8. The method of lining a body having a plurality of intersecting cavities including the steps of
- positioning a thin hollow metal can within each of said cavities of said body in spaced relation to the walls of said cavities with at least a portion of one can blocking the intersection of the body cavities,
- securing said can to said body within each of said cavities to provide an interconnected space within said cavities,
- filling said space with metal powder,
- evacuating gas from said space,
- subjecting said body, the cans in the cavities and said powder to elevated temperature and pressure sufficient to consolidate the metal powder into a dense uniform interconnected metal lining on said cavities, and
- removing excess material and the portion of said can blocking the intersection of the body cavities to complete the desired lined intersecting cavities and to provide communication therebetween.
- 9. The method of lining a body having a plurality of intersecting cavities including the steps of
- positioning a thin hollow metal can with a sealed transverse passageway therethrough in one of said cavities and a thin metal tube extending slidably through the sealed transverse passageway of said can in the other of the intersecting cavities,
- securing said can and said tube to said body within said cavities to provide an interconnected space within said cavities,
- filling said space with metal powder,
- evacuating gas from said space,
- subjecting said body, said can, said tube, and said metal powder to elevated temperature and pressure sufficient to consolidate the metal powder into a dense uniform interconnected metal lining on said cavities, and
- removing excess material and the portion of the tube extending through said sealed transverse passageway to complete the desired lined intersecting cavities and to provide communication therebetween.
- 10. The method of lining a body having a plurality of intersecting cavities including the steps of
- positioning a thin hollow metal can within each of said cavities of said body in spaced relation to the walls of said cavities with at least a portion of one can blocking the intersection of the body cavities,
- securing said can to said body within each of said cavities to provide an interconnected space within said cavities,
- filling said space with metal powder,
- removing gases from said space which would interfere with the subsequent formation of a suitable consolidated metal lining,
- subjecting said body, the cans in the cavities and said powder to elevated temperature and pressure sufficient to consolidate the metal powder into a dense uniform interconnected metal lining on said cavities, and
- removing excess material and the portion of said can blocking the intersection of the body cavities to complete the desired line intersecting cavities and to provide communication therebetween.
- 11. The method of lining a body having a plurality of intersecting cavities including the steps of
- positioning a thin hollow metal can with a sealed transverse passageway therethrough in one of said cavities and a thin metal tube extending slidably through the sealed transverse passageway of said can in the other of the intersecting cavities,
- securing said can and said tube to said body within said cavities to provide an interconnected space within said cavities,
- filling said space with metal powder,
- removing gases from said space which would interfere with the subsequent formation of a suitable consolidated metal lining,
- subjecting said body, said can, said tube, and said metal powder to elevated temperature and pressure sufficient to consolidate the metal powder into a dense uniform interconnected metal lining on said cavities, and
- removing excess material and the portion of the tube extending through said sealed transverse passageway to complete the desired lined intersecting cavities and to provide communication therebetween. .Iadd.
- 12. The method of applying a corrosion resistant lining to intersecting passages of a high strength pressure vessel comprising
- securing and sealing a thin hollow yieldable metal mold in spaced relationship to the passages to be lined to provide an interconnected sealed space lining said passages with at least a portion of said thin hollow metal mold blocking the intersecting passages,
- removing gases from said space which would interfere with the subsequent formation of a suitable consolidated corrosion resistant lining,
- filling the space between the passages and the mold with metal powder,
- subjecting the mold, metal powder and pressure vessel to elevated temperature and pressure sufficient to consolidate the metal powder into a dense uniform interconnected metal lining in the passages, and
- machining the material in the lined passages to remove the portion of said thin hollow metal mold blocking communication between said passages. .Iaddend. .Iadd.
- 13. The method of lining a body having a plurality of intersecting cavities including the steps of
- positioning a thin hollow metal yieldable mold within the intersecting cavities in spaced relation to the walls of said cavities with at least a portion of said mold blocking the intersection of the body cavities,
- securing said thin hollow metal mold to said body within said cavities to provide an interconnected space within said cavities,
- filling said space with metal powder,
- evacuating gas from said space,
- subjecting said body, said mold and said powder to elevated temperature and pressure sufficient to consolidate the metal powder into a dense uniform interconnected metal lining said cavities, and
- removing excess material and the portion of the thin hollow metal mold blocking the intersection of the body cavities to complete the desired lined intersecting cavities and to provide communication therebetween. .Iaddend. .Iadd.14. The method of lining a body having a plurality of intersecting cavities including the steps of
- securing and sealing a thin hollow metal sealed structure within the intersecting body cavities in spaced relation to the walls of the cavities to provide an interconnected sealed space between said structure and the walls of said cavities with at least a portion of the thin hollow metal sealed structure blocking the intersecting cavities,
- filling said interconnected sealed space with metal powder,
- evacuating gas from said interconnected sealed space,
- subjecting the body with the sealed structure and metal powder therein to a temperature of approximately 2100.degree. F. and a pressure of approximately 15,000 psi for a period of approximately two hours to consolidate the metal powder into a dense uniform interconnected lining in said cavities, and
- machining the lined cavities to the desired dimensions and to remove the portion of the thin hollow metal structure blocking communication between
- the body cavities. .Iaddend. .Iadd.15. The method of applying a corrosion resistant lining to intersecting passages of a high strength pressure vessel comprising
- securing and sealing a thin hollow yieldable metal mold in spaced relationship to the passages to be lined to provide an interconnected sealed space lining said passages with at least a portion of said thin hollow metal mold blocking the intersecting passages,
- filling the space between the passages and the mold with metal powder,
- drawing a vacuum in the space,
- subjecting the mold, metal powder and pressure vessel to elevated temperature and pressure sufficient to consolidate the metal powder into a dense uniform interconnected metal lining in the passages, and
- machining the consolidated metal powder and the mold in said passages to remove the portion of the material blocking communicate between said passages. .Iaddend.
CROSS REFERENCE TO RELATED APPLICATION
The present application is a continuation-in-part application of our prior copending application Ser. No. 138,874, filed Apr. 10, 1980, now abandoned.
US Referenced Citations (19)
Foreign Referenced Citations (4)
Number |
Date |
Country |
1458291 |
Dec 1968 |
DEX |
2349776 |
May 1974 |
DEX |
2648729 |
May 1978 |
DEX |
1009577 |
Nov 1965 |
GBX |
Non-Patent Literature Citations (2)
Entry |
Brae Field Development Block 16/7a, Marathon Oil, U.K., Ltd., a study by Cameron Iron Works, Inc., Houston, Texas (Nov. 1980). |
Cam Clad Valve, Cameron Iron Works, Inc., Houston, Texas (Aug. 1980). |
Continuation in Parts (1)
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Number |
Date |
Country |
Parent |
138874 |
Apr 1980 |
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Reissues (1)
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Number |
Date |
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Parent |
393055 |
Jun 1982 |
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