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公开(公告)号:US5395701A
公开(公告)日:1995-03-07
申请号:US78146
申请日:1993-06-16
IPC分类号: C22C47/10 , C04B35/58 , C22C1/10 , C22C21/00 , C22C29/00 , C22C29/02 , C22C29/12 , C22C29/14 , C22C29/16 , C22C32/00 , C22C47/00 , C22C47/02 , C22C47/04 , C22C47/08 , C22C49/06 , C22C49/14 , C22C101/10 , C22C1/09
CPC分类号: C22C29/00 , C22C1/1036 , C22C32/00 , C22C47/08 , C22C49/14 , B22F2998/00 , B22F2999/00 , C22C2001/1063 , Y10T428/12007 , Y10T428/12486
摘要: A ceramic-reinforced aluminum matrix composite is formed by contacting a molten aluminum-magnesium alloy with a permeable mass of ceramic material in the presence of a gas comprising from about 10 to 100% nitrogen, by volume, balance non-oxidizing gas, e.g., hydrogen or argon. Under these conditions, the molten alloy spontaneously infiltrates the ceramic mass under normal atmospheric pressures. A solid body of the alloy can be placed adjacent a permeable bedding of ceramic material, and brought to the molten state, preferably to at least about 700.degree. C., in order to form the aluminum matrix composite by infiltration. In addition to magnesium, auxiliary alloying elements may be employed with aluminum. The resulting composite products may contain a discontinuous aluminum nitride phase in the aluminum matrix and/or an aluminum nitride external surface layer.
摘要翻译: 一种陶瓷增强的铝基复合材料是通过使熔融的铝 - 镁合金与一种可渗透的陶瓷材料组合而形成的,该气体包含约10至100%的氮气(体积),平衡非氧化性气体,例如, 氢或氩。 在这些条件下,熔融合金在正常大气压力下自发渗透陶瓷块。 合金的固体可以放置在陶瓷材料的可渗透层面附近,并且进入熔融状态,优选至少约700℃,以通过渗透形成铝基复合材料。 除了镁之外,辅助合金元素可以与铝一起使用。 所得到的复合产品可能在铝基体和/或氮化铝外表面层中含有不连续的氮化铝相。
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公开(公告)号:US5856025A
公开(公告)日:1999-01-05
申请号:US399306
申请日:1995-03-06
IPC分类号: C22C47/10 , C04B35/58 , C22C1/10 , C22C21/00 , C22C29/00 , C22C29/02 , C22C29/12 , C22C29/14 , C22C29/16 , C22C32/00 , C22C47/00 , C22C47/02 , C22C47/04 , C22C47/08 , C22C49/06 , C22C49/14 , C22C101/10 , C22C1/09
CPC分类号: C22C29/00 , C22C1/1036 , C22C32/00 , C22C47/08 , C22C49/14 , B22F2998/00 , B22F2999/00 , C22C2001/1063 , Y10T428/12007 , Y10T428/12486
摘要: A ceramic-reinforced aluminum matrix composite is formed by contacting a molten aluminum-magnesium alloy with a permeable mass of ceramic material in the presence of a gas comprising from about 10 to 100% nitrogen, by volume, balance non-oxidizing gas, e.g., hydrogen or argon. Under these conditions, the molten alloy spontaneously infiltrates the ceramic mass under normal atmospheric pressures. A solid body of the alloy can be placed adjacent a permeable bedding of ceramic material, and brought to the molten state, preferably to at least about 700.degree. C., in order to form the aluminum matrix composite by infiltration. In addition to magnesium, auxiliary alloying elements may be employed with aluminum. The resulting composite products may contain a discontinuous aluminum nitride phase in the aluminum matrix and/or an aluminum nitride external surface layer.
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公开(公告)号:US4828008A
公开(公告)日:1989-05-09
申请号:US49171
申请日:1987-05-13
IPC分类号: C22C47/10 , C04B35/58 , C22C1/10 , C22C21/00 , C22C29/00 , C22C29/02 , C22C29/12 , C22C29/14 , C22C29/16 , C22C32/00 , C22C47/00 , C22C47/02 , C22C47/04 , C22C47/08 , C22C49/06 , C22C49/14 , C22C101/10
CPC分类号: C22C29/00 , C22C1/1036 , C22C32/00 , C22C47/08 , C22C49/14 , B22F2998/00 , B22F2999/00 , C22C2001/1063 , Y10T428/12007 , Y10T428/12486
摘要: A ceramic-reinforced aluminum matrix composite is formed by contacting a molten aluminum-magnesium alloy with a permeable mass of ceramic material in the presence of a gas comprising from about 10 to 100% nitrogen, by volume, balance non-oxidizing gas, e.g., hydrogen or argon. Under these conditions, the molten alloy spontaneously infiltrates the ceramic mass under normal atmospheric pressures. A solid body of the alloy can be placed adjacent a permeable bedding of ceramic material, and brought to the molten state, preferably to at least about 700.degree. C., in order to form the aluminum matrix composite by infiltration. In addition to magnesium, auxiliary alloying elements may be employed with aluminum. The resulting composite products may contain a discontinuous aluminum nitride phase in the aluminum matrix and/or an aluminum nitride external surface layer.
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公开(公告)号:US5518061A
公开(公告)日:1996-05-21
申请号:US199413
申请日:1994-02-22
申请人: Marc S. Newkirk , Andrew W. Urquhart , Michael K. Aghajanian , Mark G. Mortenson , Vilupanur A. Ravi , Alan S. Nagelberg
发明人: Marc S. Newkirk , Andrew W. Urquhart , Michael K. Aghajanian , Mark G. Mortenson , Vilupanur A. Ravi , Alan S. Nagelberg
CPC分类号: C04B41/89 , C04B41/52 , C22C1/1036 , C22C2001/1057 , C22C2001/1063
摘要: The present invention relates to modifying the properties of a metal matrix composite body by a post formation process treatment and/or a substantially contiguous modification treatment. The post formation process treatment may be applicable to a variety of metal matrix composite bodies produced by various techniques, and is particularly applicable to modifying the properties of a metal matrix composite body produced by a spontaneous infiltration technique. The substantially contiguous modification process may also be used primarily in conjunction with metal matrix composite bodies produced according to a spontaneous infiltration technique. Particularly, at least a portion of the matrix metal of the metal matrix composite body and/or the filler material of the metal matrix composite body is modified or altered during and/or after the formation process.
摘要翻译: 本发明涉及通过后形成工艺处理和/或基本相邻的改性处理来改性金属基质复合体的性质。 后形成处理可以适用于通过各种技术制造的各种金属基复合体,特别适用于通过自发渗透技术制造的金属基复合体的特性。 基本相邻的改性方法也可以主要与根据自发渗透技术制备的金属基质复合体一起使用。 特别地,金属基体复合体的基质金属和/或金属基体复合体的填充材料的至少一部分在形成过程中和/或之后被修饰或改变。
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5.发明授权Methods of making composite aluminum nitride ceramic articles having embedded filler 失效制备具有嵌入填料的复合氮化铝陶瓷制品的方法
公开(公告)号:US5420085A
公开(公告)日:1995-05-30
申请号:US7387
申请日:1993-01-21
申请人: Marc S. Newkirk , Harry R. Zwicker , Andrew W. Urquhart , Harold D. Lesher , Terry D. Claar , Michael K. Aghajanian , John P. Biel, Jr.
发明人: Marc S. Newkirk , Harry R. Zwicker , Andrew W. Urquhart , Harold D. Lesher , Terry D. Claar , Michael K. Aghajanian , John P. Biel, Jr.
CPC分类号: C04B41/5025 , C04B35/652 , C04B35/76 , C04B35/80 , C04B41/87
摘要: A method of making self-supporting ceramic composite structures having filler embedded therein includes infiltrating a permeable mass of filler with polycrystalline material comprising an oxidation reaction product obtained by oxidation of a parent metal such as aluminum and optionally, containing therein non-oxidized constituents of the parent metal. The structure is formed by placing a parent metal adjacent to a permeable filler and heating the assembly to melt the parent metal and provide a molten body of parent metal which is contacted with a suitable vapor-phase oxidant. Within a certain temperature region and optionally, aided by one or more dopants in or on the parent metal, molten parent metal will migrate through previously formed oxidation reaction product into contact with the oxidant, causing the oxidation reaction product to grow so as to embed the adjacent filler and provide the composite structure. In a preferred embodiment, a parent metal comprising aluminum is oxidized by a vapor-phase oxidant comprising nitrogen to form a ceramic matrix comprising an aluminum nitride oxidation reaction product. In a particularly preferred embodiment, one or more protective coatings are applied to the filler prior to formation of the aluminum nitride oxidation reaction product matrix.
摘要翻译: 制造具有嵌入其中的填料的自支撑陶瓷复合结构的方法包括用多晶材料渗透可渗透的填料,所述多晶材料包含通过氧化母体金属如铝而获得的氧化反应产物,并且任选地含有其中的非氧化成分 母金属。 通过将母体金属放置在可渗透填料附近并加热该组件以熔化母体金属并提供与合适的气相氧化剂接触的母体金属的熔融体来形成结构。 在一定温度范围内,任选地,由母体金属中或母体金属上的一种或多种掺杂剂辅助,熔融母体金属将迁移通过预先形成的氧化反应产物与氧化剂接触,使氧化反应产物生长,从而嵌入 相邻填料并提供复合结构。 在优选的实施方案中,包含铝的母体金属被包含氮的气相氧化剂氧化以形成包含氮化铝氧化反应产物的陶瓷基体。 在特别优选的实施方案中,在形成氮化铝氧化反应产物基质之前,将一种或多种保护性涂料施加到填料上。
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公开(公告)号:US5301738A
公开(公告)日:1994-04-12
申请号:US841241
申请日:1992-02-24
申请人: Marc S. Newkirk , Andrew W. Urquhart , Michael K. Aghajanian , Mark G. Mortenson , Vilupanur A. Ravi , Alan S. Nagelberg
发明人: Marc S. Newkirk , Andrew W. Urquhart , Michael K. Aghajanian , Mark G. Mortenson , Vilupanur A. Ravi , Alan S. Nagelberg
CPC分类号: C04B41/52 , C04B41/89 , C22C1/1036
摘要: The present invention relates to modifying the properties of a metal matrix composite body by a post formation process modification treatment. The post formation process treatment may be applicable to a variety of metal matrix composite bodies produced by various techniques, and is particularly applicable to modifying the properties of a metal matrix composite body produced by a spontaneous infiltration technique. Particularly, at least a portion of the matrix metal of the metal matrix composite body and/or the filler material of the metal matrix composite body is modified or altered after the formation process. Preferably, the preform contains a second non-metal material, an infiltration enhancer of infiltration enhancer precursor, and an infiltration atmosphere.
摘要翻译: 本发明涉及通过后形成工艺改性处理改性金属基复合体的性能。 后形成处理可以适用于通过各种技术制造的各种金属基复合体,特别适用于通过自发渗透技术制造的金属基复合体的特性。 特别地,金属基体复合体的基体金属的至少一部分和/或金属基复合体的填充材料在形成工序之后被修改或改变。 优选地,预成型体包含第二非金属材料,渗透增强剂前体的渗透增强剂和渗透气氛。
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公开(公告)号:US5000248A
公开(公告)日:1991-03-19
申请号:US269309
申请日:1988-11-10
CPC分类号: C04B41/009 , C04B41/52 , C04B41/89 , C22C1/1036 , C04B2111/00931
摘要: The present invention relates to modifying the properties of a metal matrix composite body by a post formation process treatment and/or a substantially contiguous modification treatment. The post formation process treatment may be applicable to a variety of metal matrix composite bodies produced by various techniques, and is particularly applicable to modifying the properties of a metal matrix composite body produced by a spontaneous infiltration technique. The substantially contiguous modification process may also be used primarily in conjunction with metal matrix composite bodies produced according to a spontaneous infiltration technique. Particularly, at least a portion of the matrix metal of the metal matrix composite body and/or the filler material of the metal matrix composite body is modified or altered during and/or after the formation process.
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公开(公告)号:US5344690A
公开(公告)日:1994-09-06
申请号:US34323
申请日:1993-03-22
CPC分类号: C04B38/061 , B28B1/00 , B28B3/025 , B28B7/342 , C04B35/652 , Y10T428/12007 , Y10T428/131 , Y10T428/1314 , Y10T428/24273 , Y10T428/24322 , Y10T428/249953 , Y10T428/249957 , Y10T428/249967 , Y10T428/249969 , Y10T428/249975
摘要: Self-supporting ceramic bodies comprising a polycrystalline material comprising the oxidation reaction product of a parent metal and having therein one or more channels which inversely replicate the geometry of the configured fugitive metal are formed. These self-supporting bodies may be utilized as articles for regulating and facilitating the passage of a fluid therethrough.
摘要翻译: 形成包括母体金属的氧化反应产物并且具有一个或多个通道的多层材料的自支撑陶瓷体,其反复地构成了配置的流体金属的几何形状。 这些自支撑体可以用作用于调节和促进流体通过的制品。
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9.发明授权Method of making ceramic articles having channels therein and articles made thereby 失效制造具有通道的陶瓷制品的方法和由此制成的制品
公开(公告)号:US4847025A
公开(公告)日:1989-07-11
申请号:US907924
申请日:1986-09-16
CPC分类号: B28B3/025 , B28B1/00 , B28B7/342 , C04B35/652 , C04B38/061
摘要: A method is provided for producing a self-supporting ceramic body comprising a polycrystalline material comprised of the oxidation reaction product of a parent metal and having therein one or more channels which inversely replicate the geometry of a configured fugitive metal. The method includes providing an assembly of the configured fugitive metal and the parent metal, optionally including a bed of permeable filler, and heating the assembly to form a body of molten parent metal. The molten parent metal is oxidized under selected conditions to grow the polycrystalline material to engulf the configured fugitive metal (and to infiltrate the filler, if the filler is present) and to cause the fugitive metal to disperse into the engulfing polycrystalline material thereby leaving behind as the one or more channels the space formerly occupied by the configured fugitive metal. The method provides self-supporting ceramic bodies having therein one or more channels inversely replicating the shape of the configured fugitive metal.
摘要翻译: 提供了一种用于生产自支撑陶瓷体的方法,其包括由母体金属的氧化反应产物组成的多晶材料,并且在其中具有一个或多个通道,其反复地构成配置的逃逸金属的几何形状。 该方法包括提供配置的短暂金属和母体金属的组件,任选地包括可渗透填料床,以及加热组件以形成熔融母体金属体。 熔融母体金属在选择的条件下被氧化以生长多晶材料以吞没配置的短暂金属(并且如果存在填料,则渗透填料)并且使短暂金属分散到吞没的多晶材料中,从而留下如 一个或多个通道,空间以前由配置的逃逸金属占据。 该方法提供了在其中具有一个或多个通道的自支撑陶瓷体,反向复制了配置的短效金属的形状。
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10.发明授权
公开(公告)号:US5180697A
公开(公告)日:1993-01-19
申请号:US551306
申请日:1990-07-12
申请人: Terry D. Claar , Steven M. Mason , Kevin P. Pochopien , Danny R. White , William B. Johnson , Michael K. Aghajanian
发明人: Terry D. Claar , Steven M. Mason , Kevin P. Pochopien , Danny R. White , William B. Johnson , Michael K. Aghajanian
CPC分类号: C04B35/653 , C04B35/56 , C04B35/5607 , C04B35/5611 , C04B35/5622 , C04B35/5805 , C04B35/58064 , C04B35/58071 , C04B35/58078 , C04B35/652 , C04B41/5062 , C04B41/507 , C04B41/87 , C22C29/00
摘要: Self-supporting bodies are produced by reactive infiltration of a parent metal into a boron carbide material which may contain one or both of a boron donor material and a carbon donor material. The reactive infiltration typically results in a composite comprising a boron-containing compound, a carbon-containing compound and residual metal, if desired. The mass to be infiltrated may contain one or more inert filters admixed with the boron carbide material, boron-containing compound and/or carbon-containing compound. The relative amounts of reactants and process conditions may be altered or controlled to yield a body containing varying volume percents of ceramic, metal, ratios of one ceramic to another and porosity.
摘要翻译: 自支撑体通过母体金属的反应性渗透到可以含有硼给体材料和碳供体材料中的一种或两种的碳化硼材料中而产生。 如果需要,反应性渗透通常导致包含含硼化合物,含碳化合物和残余金属的复合材料。 待渗透的物质可以含有与碳化硼材料,含硼化合物和/或含碳化合物混合的一种或多种惰性过滤器。 可以改变或控制反应物和工艺条件的相对量,以产生包含不同体积百分比的陶瓷,金属,一种陶瓷与另一陶瓷的比例和孔隙率的物体。
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