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公开(公告)号:US07736751B2
公开(公告)日:2010-06-15
申请号:US11533570
申请日:2006-09-20
申请人: Ali Yousefiani
发明人: Ali Yousefiani
IPC分类号: C25D5/28
CPC分类号: F02K9/34 , F05D2230/90 , F05D2260/95 , F05D2300/611 , Y10T428/12806 , Y10T428/1352
摘要: The present invention provides a heretofore-unknown use for zirconium nitride as a hydrogen peroxide compatible protective coating that was discovered to be useful to protect components that catalyze the decomposition of hydrogen peroxide or corrode when exposed to hydrogen peroxide. A zirconium nitride coating of the invention may be applied to a variety of substrates (e.g., metals) using art-recognized techniques, such as plasma vapor deposition. The present invention further provides components and articles of manufacture having hydrogen peroxide compatibility, particularly components for use in aerospace and industrial manufacturing applications. The zirconium nitride barrier coating of the invention provides protection from corrosion by reaction with hydrogen peroxide, as well as prevention of hydrogen peroxide decomposition.
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公开(公告)号:US20080121548A1
公开(公告)日:2008-05-29
申请号:US11533570
申请日:2006-09-20
申请人: Ali Yousefiani
发明人: Ali Yousefiani
CPC分类号: F02K9/34 , F05D2230/90 , F05D2260/95 , F05D2300/611 , Y10T428/12806 , Y10T428/1352
摘要: The present invention provides a heretofore-unknown use for zirconium nitride as a hydrogen peroxide compatible protective coating that was discovered to be useful to protect components that catalyze the decomposition of hydrogen peroxide or corrode when exposed to hydrogen peroxide. A zirconium nitride coating of the invention may be applied to a variety of substrates (e.g., metals) using art-recognized techniques, such as plasma vapor deposition. The present invention further provides components and articles of manufacture having hydrogen peroxide compatibility, particularly components for use in aerospace and industrial manufacturing applications. The zirconium nitride barrier coating of the invention provides protection from corrosion by reaction with hydrogen peroxide, as well as prevention of hydrogen peroxide decomposition.
摘要翻译: 本发明提供了一种迄今为止未知的用于氮化锆作为过氧化氢相容的保护涂层的用途,其被发现可用于保护当暴露于过氧化氢时催化过氧化氢分解或腐蚀的组分。 可以使用本领域公认的技术(例如等离子体气相沉积)将本发明的氮化锆涂层施加到各种基底(例如金属)上。 本发明还提供具有过氧化氢相容性的组分和制品,特别是用于航空和工业制造应用的组分。 本发明的氮化锆阻挡涂层通过与过氧化氢反应提供防止腐蚀,以及防止过氧化氢分解。
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3.发明申请Method for Making Hybrid Metal-Ceramic Matrix Composite Structures and Structures Made Thereby 有权制造混合金属 - 陶瓷基复合结构和结构的方法公开(公告)号:US20090226746A1
公开(公告)日:2009-09-10
申请号:US12044052
申请日:2008-03-07
CPC分类号: C04B37/025 , C04B2237/06 , C04B2237/343 , C04B2237/38 , C04B2237/405 , C04B2237/406 , C04B2237/54
摘要: A laminated ceramic matrix composite structure is strengthened with one or more layers of a metal reinforcement. The metal reinforcement is selected to provide optimal strength and thermal compatibility with the ceramic matrix composite. The metal reinforcement includes an outer oxidized layer that bonds to the ceramic matrix composite. It may also include a barrier layer on the surface of the metal that helps prevent further oxidation. The structure is formed using standard composite prepreg layup techniques.
摘要翻译: 层压陶瓷基复合结构用一层或多层金属增强材料加强。 选择金属增强材料以提供与陶瓷基复合材料的最佳强度和热相容性。 金属加强件包括与陶瓷基复合材料结合的外部氧化层。 它还可以包括在金属表面上的阻挡层,其有助于防止进一步的氧化。 该结构使用标准的复合预浸料叠层技术形成。
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公开(公告)号:US07824783B2
公开(公告)日:2010-11-02
申请号:US12774086
申请日:2010-05-05
申请人: Ali Yousefiani
发明人: Ali Yousefiani
CPC分类号: F02K9/34 , F05D2230/90 , F05D2260/95 , F05D2300/611 , Y10T428/12806 , Y10T428/1352
摘要: The present invention provides a heretofore-unknown use for zirconium nitride as a hydrogen peroxide compatible protective coating that was discovered to be useful to protect components that catalyze the decomposition of hydrogen peroxide or corrode when exposed to hydrogen peroxide. A zirconium nitride coating of the invention may be applied to a variety of substrates (e.g., metals) using art-recognized techniques, such as plasma vapor deposition. The present invention further provides components and articles of manufacture having hydrogen peroxide compatibility, particularly components for use in aerospace and industrial manufacturing applications. The zirconium nitride barrier coating of the invention provides protection from corrosion by reaction with hydrogen peroxide, as well as prevention of hydrogen peroxide decomposition.
摘要翻译: 本发明提供了一种迄今为止未知的用于氮化锆作为过氧化氢相容的保护涂层的用途,其被发现可用于保护当暴露于过氧化氢时催化过氧化氢分解或腐蚀的组分。 可以使用本领域公认的技术(例如等离子体气相沉积)将本发明的氮化锆涂层施加到各种基底(例如金属)上。 本发明还提供具有过氧化氢相容性的组分和制品,特别是用于航空和工业制造应用的组分。 本发明的氮化锆阻挡涂层通过与过氧化氢反应提供防止腐蚀,以及防止过氧化氢分解。
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5.发明申请BUILT-UP COMPOSITE STRUCTURES WITH A GRADED COEFFICIENT OF THERMAL EXPANSION FOR EXTREME ENVIRONMENT APPLICATIONS 有权用于极端环境应用的具有热膨胀系数的分级系统的内置复合结构公开(公告)号:US20090269497A1
公开(公告)日:2009-10-29
申请号:US12110595
申请日:2008-04-28
CPC分类号: F02K1/00 , B22F3/1055 , B22F3/115 , B22F5/009 , B22F7/08 , B22F2999/00 , B33Y50/00 , C23C4/04 , C23C28/021 , C23C28/023 , C23C28/028 , F02K1/78 , F02K9/34 , F05D2300/21 , F05D2300/50212 , F05D2300/603 , Y02P10/295 , Y10T29/49616 , Y10T428/12611 , B22F3/15 , B22F2207/01
摘要: An integrated composite structure with a graded coefficient of thermal expansion (CTE) is formed by selecting a plurality of layers of materials with a graded CTE and using build-up (bottom-up) fabrication approaches such as metal deposition or powder metallurgy to produce a CTE-graded layered composite preform, which is then consolidated and heat treated to create the CTE graded integrated composite billet or near net shape. The integrated composite billet or near net shape is then processed to produce a first surface for attachment of a first structural member having a first CTE and to produce a second surface of for attachment of a second structural member having a second CTE.
摘要翻译: 通过选择具有分级CTE的多层材料并使用建立(自下而上)制造方法如金属沉积或粉末冶金来形成具有分级热膨胀系数(CTE)的综合复合结构,以产生 CTE级分层复合预制件,然后将其固结和热处理以产生CTE分级综合复合坯料或近净形状。 然后对所述集成的复合坯料或近净形状进行加工以产生用于附接具有第一CTE的第一结构构件的第一表面,并且产生用于附接具有第二CTE的第二结构构件的第二表面。
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6.发明授权Method for making hybrid metal-ceramic matrix composite structures and structures made thereby 有权制造混合金属 - 陶瓷基体复合结构和由此制成的结构的方法公开(公告)号:US08715439B2
公开(公告)日:2014-05-06
申请号:US12044052
申请日:2008-03-07
CPC分类号: C04B37/025 , C04B2237/06 , C04B2237/343 , C04B2237/38 , C04B2237/405 , C04B2237/406 , C04B2237/54
摘要: A laminated ceramic matrix composite structure is strengthened with one or more layers of a metal reinforcement. The metal reinforcement is selected to provide optimal strength and thermal compatibility with the ceramic matrix composite. The metal reinforcement includes an outer oxidized layer that bonds to the ceramic matrix composite. It may also include a barrier layer on the surface of the metal that helps prevent further oxidation. The structure is formed using standard composite prepreg layup techniques.
摘要翻译: 层压陶瓷基复合结构用一层或多层金属增强材料加强。 选择金属增强材料以提供与陶瓷基复合材料的最佳强度和热相容性。 金属加强件包括与陶瓷基复合材料结合的外部氧化层。 它还可以包括在金属表面上的阻挡层,其有助于防止进一步的氧化。 该结构使用标准的复合预浸料叠层技术形成。
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7.发明授权Built-up composite structures with a graded coefficient of thermal expansion for extreme environment applications 有权具有分级热膨胀系数的建筑复合结构,适用于极端环境应用公开(公告)号:US08512808B2
公开(公告)日:2013-08-20
申请号:US12110595
申请日:2008-04-28
IPC分类号: B05D1/36
CPC分类号: F02K1/00 , B22F3/1055 , B22F3/115 , B22F5/009 , B22F7/08 , B22F2999/00 , B33Y50/00 , C23C4/04 , C23C28/021 , C23C28/023 , C23C28/028 , F02K1/78 , F02K9/34 , F05D2300/21 , F05D2300/50212 , F05D2300/603 , Y02P10/295 , Y10T29/49616 , Y10T428/12611 , B22F3/15 , B22F2207/01
摘要: An integrated composite structure with a graded coefficient of thermal expansion (CTE) is formed by selecting a plurality of layers of materials with a graded CTE and using build-up (bottom-up) fabrication approaches such as metal deposition or powder metallurgy to produce a CTE-graded layered composite preform, which is then consolidated and heat treated to create the CTE graded integrated composite billet or near net shape. The integrated composite billet or near net shape is then processed to produce a first surface for attachment of a first structural member having a first CTE and to produce a second surface of for attachment of a second structural member having a second CTE.
摘要翻译: 通过选择具有分级CTE的多层材料并使用建立(自下而上)制造方法如金属沉积或粉末冶金来形成具有分级热膨胀系数(CTE)的综合复合结构,以产生 CTE级分层复合预制件,然后将其固结和热处理以产生CTE分级综合复合坯料或近净形状。 然后对所述集成的复合坯料或近净形状进行加工以产生用于附接具有第一CTE的第一结构构件的第一表面,并且产生用于附接具有第二CTE的第二结构构件的第二表面。
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公开(公告)号:US20100212283A1
公开(公告)日:2010-08-26
申请号:US12774086
申请日:2010-05-05
申请人: Ali YOUSEFIANI
发明人: Ali YOUSEFIANI
IPC分类号: F02G1/00 , C23C16/34 , C23C16/513
CPC分类号: F02K9/34 , F05D2230/90 , F05D2260/95 , F05D2300/611 , Y10T428/12806 , Y10T428/1352
摘要: The present invention provides a heretofore-unknown use for zirconium nitride as a hydrogen peroxide compatible protective coating that was discovered to be useful to protect components that catalyze the decomposition of hydrogen peroxide or corrode when exposed to hydrogen peroxide. A zirconium nitride coating of the invention may be applied to a variety of substrates (e.g., metals) using art-recognized techniques, such as plasma vapor deposition. The present invention further provides components and articles of manufacture having hydrogen peroxide compatibility, particularly components for use in aerospace and industrial manufacturing applications. The zirconium nitride barrier coating of the invention provides protection from corrosion by reaction with hydrogen peroxide, as well as prevention of hydrogen peroxide decomposition.
摘要翻译: 本发明提供了一种迄今为止未知的用于氮化锆作为过氧化氢相容的保护涂层的用途,其被发现可用于保护当暴露于过氧化氢时催化过氧化氢分解或腐蚀的组分。 可以使用本领域公认的技术(例如等离子体气相沉积)将本发明的氮化锆涂层施加到各种基底(例如金属)上。 本发明还提供具有过氧化氢相容性的组分和制品,特别是用于航空和工业制造应用的组分。 本发明的氮化锆阻挡涂层通过与过氧化氢反应提供防止腐蚀,以及防止过氧化氢分解。
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9.发明申请JOINED COMPOSITE STRUCTURES WITH A GRADED COEFFICIENT OF THERMAL EXPANSION FOR EXTREME ENVIRONMENT APPLICATIONS 审中-公开具有用于极端环境应用的热膨胀系数分级系统的接合复合结构公开(公告)号:US20090266870A1
公开(公告)日:2009-10-29
申请号:US12108480
申请日:2008-04-23
CPC分类号: C04B37/026 , B32B7/02 , B32B2605/18 , C04B2235/72 , C04B2235/9607 , C04B2237/122 , C04B2237/123 , C04B2237/403 , C04B2237/405 , C04B2237/58 , C04B2237/76
摘要: An integrated composite structure with a graded coefficient of thermal expansion (CTE) is formed by selecting a plurality of layers of materials with a graded CTE and using joining approaches such as welding, brazing, or solid state bonding to produce a CTE-graded layered composite or near net shape. The integrated composite billet or near net shape is then processed to produce a first surface for attachment of a first structural member having a first CTE and to produce a second surface of for attachment of a second structural member having a second CTE.
摘要翻译: 通过选择具有分级CTE的多层材料并使用诸如焊接,钎焊或固态键合的接合方法来形成具有分级热膨胀系数(CTE)的综合复合结构,以产生CTE级分层状复合材料 或近净形状。 然后对所述集成的复合坯料或近净形状进行加工以产生用于附接具有第一CTE的第一结构构件的第一表面,并且产生用于附接具有第二CTE的第二结构构件的第二表面。
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