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    • 2. 发明申请
    • Method of manufacturing a hybrid structure
    • 制造混合结构的方法
    • US20050167878A1
    • 2005-08-04
    • US10767012
    • 2004-01-29
    • Jay MorrisonGary MerrillSteven VanceMichael Burke
    • Jay MorrisonGary MerrillSteven VanceMichael Burke
    • B28B7/34B28B11/08B28B19/00B29C33/76B29C39/02B29C39/12
    • B28B7/342B28B11/08B28B19/00C04B2235/6028F05D2300/6033Y10S264/44
    • A method of manufacturing a hybrid structure (100) having a layer of CMC material (28) defining an interior passageway (24) and a layer of ceramic insulating material (18) lining the passageway. The method includes the step of casting the insulating material to a first thickness required for effective casting but in excess of a desired second thickness for use of the hybrid structure. An inner mold (14) defining a net shape desired for the passageway remains in place after the casting step to mechanically support the insulating material during a machining process used to reduce the thickness of the insulating material from the as-cast first thickness to the desired second thickness. The inner mold also provides support as the CMC material is deposited onto the insulating material. The inner mold may include a fugitive material portion (20) to facilitate its removal after the CMC material is formed.
    • 一种制造具有限定内部通道(24)的CMC材料层(28)和衬套通道的陶瓷绝缘材料层(18)的混合结构(100)的方法。 该方法包括将绝缘材料浇铸到有效铸造所需的第一厚度但超过所需的第二厚度以用于混合结构的步骤。 限定通道所需的净形状的内模(14)在铸造步骤之后保持就位,以在用于将绝缘材料的厚度从铸造第一厚度减小到期望的机械加工过程期间机械地支撑绝缘材料 第二厚度。 当CMC材料沉积到绝缘材料上时,内模还提供支撑。 内部模具可以包括短暂材料部分(20),以便在形成CMC材料之后便于其移除。
    • 5. 发明申请
    • In-situ formed thermal barrier coating for a ceramic component
    • 用于陶瓷部件的原位形成的热障涂层
    • US20060121296A1
    • 2006-06-08
    • US11031796
    • 2005-01-07
    • Jay MorrisonDaniel ThompsonGary MerrillJay Lane
    • Jay MorrisonDaniel ThompsonGary MerrillJay Lane
    • B05D3/02
    • F01D5/147F04D29/388F05D2230/23F05D2300/601F05D2300/603F05D2300/614
    • A thermal barrier layer (20) is formed by exposing an oxide ceramic material to a thermal regiment to create a surface heat affected zone effective to protect an underlying structural layer (18) of the material. The heat affected surface layer exhibits a lower strength and higher thermal conductivity than the underlying load-carrying material; however, it retains a sufficiently low thermal conductivity to function as an effective thermal barrier coating. Importantly, because the degraded material retains the same composition and thermal expansion characteristics as the underlying material, the thermal barrier layer remains integrally connected in graded fashion with the underlying material without an interface boundary there between. This invention is particularly advantageous when embodied in an apparatus formed of an oxide-oxide ceramic matrix composite (CMC) material wherein reinforcing fibers (24) are anchored in the underlying load-carrying portion and extend into the non-structural thermal barrier portion to provide support and to function as surface crack arrestors. In one embodiment an airfoil (10) is formed of a stacked plurality of CMC plates having such a heat-affected thermal barrier layer formed thereon.
    • 通过将氧化物陶瓷材料暴露于热团来形成有效保护材料的下面的结构层(18)的表面热影响区域来形成热障层(20)。 受热影响的表层具有比下面的承载材料更低的强度和更高的热导率; 然而,它保持足够低的热导率以用作有效的热障涂层。 重要的是,由于降解的材料保持与下面的材料相同的组成和热膨胀特性,所以热屏障层保持与下面的材料以分级方式整体连接,而其间没有界面边界。 当本发明体现在由氧化物 - 氧化物陶瓷基质复合材料(CMC)材料形成的装置中时,特别有利的是,其中增强纤维(24)锚固在下面的承载部分并延伸到非结构性热障部分中,以提供 支持和作为表面裂纹器。 在一个实施例中,翼片(10)由在其上形成有这种受热影响的热阻挡层的多个CMC板堆叠形成。
    • 6. 发明申请
    • Bond enhancement for thermally insulated ceramic matrix composite materials
    • 绝缘陶瓷基复合材料的粘结强化
    • US20050022921A1
    • 2005-02-03
    • US10631277
    • 2003-07-31
    • Jay MorrisonGary MerrillThomas Jackson
    • Jay MorrisonGary MerrillThomas Jackson
    • B05B1/00B32B5/16C03B29/00C04B37/00B32B31/00
    • C04B37/005B32B2315/02C04B2235/5224C04B2235/5228C04B2235/5236C04B2235/528C04B2237/062C04B2237/064C04B2237/068C04B2237/34C04B2237/36C04B2237/38C04B2237/592C04B2237/66Y10T428/25
    • A composite structure (62) having a bond enhancement member (76) extending across a bond joint (86) between a ceramic matrix composite (CMC) material (80) and a ceramic insulation material (82), and a method of fabricating such a structure. The bond enhancement member may extend completely through the CMC material to be partially embedded in a core material (84) bonded to the CMC material on an opposed side from the insulation material. A mold (26) formed of a fugitive material having particles (18) of a bond enhancement material may be used to form the CMC material. A two-piece mold (38, 46) may be used to drive a bond enhancement member partially into the CMC material. A compressible material (56) containing the bond enhancement member may be compressed between a hard tool (60) and the CMC material to drive a bond enhancement member partially into the CMC material. A surface (98) of a ceramic insulation material (92) having a bond enhancement member (96) extending therefrom may be used as a mold for laying up a CMC material.
    • 具有穿过陶瓷基体复合材料(CMC)材料(80)和陶瓷绝缘材料(82)之间的接合接头(86)延伸的结合强化构件(76)的复合结构(62),以及制造这种 结构体。 粘结增强构件可以完全延伸穿过CMC材料,以部分地嵌入在与绝缘材料相对的一侧上结合到CMC材料的芯材料(84)中。 由具有粘结增强材料的颗粒(18)的缓冲材料形成的模具(26)可用于形成CMC材料。 可以使用两件式模具(38,46)来将粘结增强部件部分地驱动到CMC材料中。 含有粘结增强部件的可压缩材料(56)可以在硬质工具(60)和CMC材料之间被压缩,以将粘合增强部件部分地驱动到CMC材料中。 陶瓷绝缘材料(92)的表面(98)可以用作用于堆放CMC材料的模具,所述陶瓷绝缘材料(92)的表面(98)具有从其延伸的粘结增强部件(96)。
    • 7. 发明申请
    • Tabbed ceramic article for improved interlaminar strength
    • 用于提高层间强度的标签陶瓷制品
    • US20060182971A1
    • 2006-08-17
    • US11059221
    • 2005-02-16
    • Gary MerrillJay Morrison
    • Gary MerrillJay Morrison
    • B32B17/10
    • C04B35/80B32B18/00C04B2237/32C04B2237/38C04B2237/64Y10T428/24289Y10T428/249928Y10T428/31
    • A ceramic article having improved interlaminar strength and a method of forming the article. The article may be a ceramic matrix composite article. The methods of forming the articles increase the interlaminar strength of the article by forming indentations in the article during processing. The indentations may be tabs that are formed such that they provide one or more beneficial features for ceramic articles, such as CMC articles and hybrid structures. The tabs may be any of a variety of shapes, orientations, spacings, and combinations. In an alternative embodiment, the indentations are formed by pulling one or more fibers from one side of the ceramic layer to the other side. The articles have increased surface area, which helps to increase the bonding strength between the ceramic layer and any thermal barrier coating layer and/or ceramic core in the ceramic article.
    • 具有改善的层间强度的陶瓷制品和形成该制品的方法。 该制品可以是陶瓷基复合制品。 形成制品的方法通过在加工过程中在制品中形成凹痕来增加制品的层间强度。 压痕可以是形成为使得它们为陶瓷制品(例如CMC制品和混合结构)提供一个或多个有益特征的凸片。 翼片可以是各种形状,取向,间距和组合中的任何一个。 在替代实施例中,通过将一个或多个纤维从陶瓷层的一侧拉到另一侧而形成凹口。 制品具有增加的表面积,这有助于增加陶瓷制品中陶瓷层和任何热障涂层和/或陶瓷芯之间的结合强度。
    • 8. 发明申请
    • Method of joining ceramic parts and articles so formed
    • 陶瓷部件和如此形成的制品的接合方法
    • US20050254942A1
    • 2005-11-17
    • US11188406
    • 2005-07-25
    • Jay MorrisonJay LaneGary Merrill
    • Jay MorrisonJay LaneGary Merrill
    • F01D5/28F01D9/04F01D1/02
    • F01D5/282B23P15/04C04B37/001C04B37/005C04B2237/341C04B2237/343C04B2237/365C04B2237/38C04B2237/76C04B2237/84F01D5/284F01D9/044F05D2230/23F05D2240/30Y10T29/49337Y10T29/49552
    • A joining method for assembling components with complex shapes from CMC elements of simpler shapes. A first CMC element (30) is fabricated and fired to a selected first cured state. A second CMC element (36) is fabricated and left in a green state, or is fired to a second partially cured state that is less complete than that of the first cured state. The two CMC elements (30, 36) are joined in a mating interface that captures an inner joining portion (38) of the second element (36) within a surrounding outer joining portion (32) of the first element (30). The assembled elements (30, 36) are then fired together, resulting in differential shrinkage that compresses the outer joining portion (32) onto the inner joining portion (38), providing a tightly pre-stressed joint. Optionally, a refractory adhesive (42) may be used in the joint. Shrinkage of the outer joining portion (32) avoids shrinkage cracks in the adhesive (42).
    • 用于从简单形状的CMC元件组装具有复杂形状的部件的接合方法。 制造第一CMC元件(30)并将其烧制至所选择的第一固化状态。 制造第二CMC元件(36)并保持在绿色状态,或者被烧制到比第一固化状态不完全的第二部分固化状态。 两个CMC元件(30,36)连接在配合接口中,该接合接口在第一元件(30)的周围的外部接合部分(32)内捕获第二元件(36)的内部接合部分(38)。 然后将组装好的元件(30,36)烧结在一起,导致不均匀的收缩,将外部接合部分(32)压缩到内部接合部分(38)上,从而提供紧密的预应力接头。 可选地,可以在接头中使用耐火粘合剂(42)。 外接合部分(32)的收缩避免了粘合剂(42)中的收缩裂纹。
    • 9. 发明申请
    • Method of sealing a free edge of a composite material
    • 密封复合材料的自由边缘的方法
    • US20070075455A1
    • 2007-04-05
    • US11243147
    • 2005-10-04
    • Bonnie MariniGary MerrillJay Lane
    • Bonnie MariniGary MerrillJay Lane
    • B29C45/14D04H5/00D04H1/00B05D3/02D04H13/00D04H3/00
    • C04B41/87C04B41/0036C04B41/009Y10T428/249924C04B41/4523C04B41/4572C04B41/5027C04B35/803
    • A method of coating an edge surface (30) of an anisotropic ceramic matrix composite material (10) for use in a high temperature environment is disclosed where the edge surface (30) has exposed reinforced fiber layers (20). A laser beam may be used to melt a portion of the ceramic matrix composite material (10) on the edge surface (30) forming a melt layer. The melt layer is retained proximate the edge surface and the laser beam is controlled to form an isotropic protective coating (32, 34) on a portion of the edge surface (30). A method may be used to form a component for use in a high temperature environment that includes directing a laser beam toward a ceramic matrix composite material (10), controlling the laser beam to melt a portion of the ceramic matrix composite material (10) and forming a homogeneous protective coating (32, 34) from a melt layer that exerts compression on at least a portion of the ceramic matrix composite material (10) when the melt layer is cooled. A powder material (35) may be added to a surface of the ceramic matrix composite material (10) selected to melt with the ceramic matrix composite material (10) to improve the wear resistance or hardness of the isotropic protective coating (32, 34).
    • 公开了一种涂覆用于高温环境的各向异性陶瓷基复合材料(10)的边缘表面(30)的方法,其中边缘表面(30)具有暴露的增强纤维层(20)。 可以使用激光束来熔化形成熔体层的边缘表面(30)上的陶瓷基质复合材料(10)的一部分。 熔体层保持在边缘表面附近并且激光束被控制以在边缘表面(30)的一部分上形成各向同性的保护涂层(32,34)。 可以使用一种方法来形成在高温环境中使用的部件,其包括将激光束引向陶瓷基质复合材料(10),控制激光束熔化陶瓷基质复合材料(10)的一部分和 当熔融层被冷却时,从熔融层形成均匀的保护涂层(32,34),所述熔融层在至少一部分陶瓷基复合材料(10)上施加压缩。 可以将陶瓷基复合材料(10)的表面添加到陶瓷基复合材料(10)中以与陶瓷基复合材料(10)熔融以提高各向同性保护涂层(32,34)的耐磨性或硬度的粉末材料(35) 。