摘要:
Synthetic sintered YPO4 composite materials comprising excess amount of Y2O3 in the composition and process for making such materials. The Y2O3-modified sintered YPO4 composite material exhibits improved mechanical properties compared to stoichiometric YPO4 materials. The modified YPO4 materials can be used to produce different components used in the glass-making process such as, for example, an isopipe.
摘要翻译:在组合物中含有过量的Y 2 O 3的合成烧结YPO 4复合材料和用于制造这种材料的方法。 与化学计量的YPO 4材料相比,Y2O3-改性的烧结YPO 4复合材料显示出改进的机械性能。 改性的YPO 4材料可用于生产用于制造玻璃制造工艺中的不同组分,例如等压槽。
摘要:
An ion-conducting composite electrolyte is provided comprising path-engineered ion-conducting ceramic electrolyte particles and a solid polymeric matrix. The path-engineered particles are characterized by an anisotropic crystalline structure and the ionic conductivity of the crystalline structure in a preferred conductivity direction H associated with one of the crystal planes of the path-engineered particle is larger than the ionic conductivity of the crystalline structure in a reduced conductivity direction L associated with another of the crystal planes of the path-engineered particle. The path-engineered particles are sized and positioned in the polymeric matrix such that a majority of the path-engineered particles breach both of the opposite major faces of the matrix body and are oriented in the polymeric matrix such that the preferred conductivity direction H is more closely aligned with a minimum path length spanning a thickness of the matrix body than is the reduced conductivity direction L.
摘要:
Disclosed are ceramic articles comprising a sintered phase ceramic composition containing, as expressed on a weight percent oxide basis: a(Al2TiO5)+b(ZrTiO4)+c(Y2O3)+d(YPO4) wherein “a, b, c, and d” represent weight fractions of each component such that (a+b+c+d)=1.00 and wherein 0.5
摘要翻译:公开了一种包含烧结相陶瓷组合物的陶瓷制品,其包含以氧化物重量百分比表示的:(Al 2 TiO 5)+ b(ZrTiO 4)+ c(Y 2 O 3)+ d(YPO 4),其中“a,b,c和d “表示每个组分的重量分数,使得(a + b + c + d)= 1.00,并且其中0.5
摘要:
A solid oxide fuel cell device assembly comprising: (i) at least one solid oxide fuel cell device including one electrolyte sheet sandwiched between at least one pair of electrodes; and (ii) a non-steel frame fixedly attached to said at least one fuel cell device without a seal located therebetween.
摘要:
A micro fluidic device (10) comprises one or more fluidic passages or channels or chambers (26, 28) having one or more dimensions in the millimeter to sub-millimeter range, wherein the device (10) further comprises a consolidated mixture comprising a glass frit and a filler (20, 24, 22, 32), the filler having a thermal conductivity greater than a thermal conductivity of the glass frit.
摘要:
A pass-through catalytic substrate can comprise a plurality of porous ceramic substrate walls defining flow channels extending between an inlet end and an outlet end of the catalytic substrate. The pass-through catalytic substrate can include a plurality of porous ceramic beveled corner portions positioned at intersecting corners of the substrate walls within the flow channels. In one example, the porous ceramic beveled corner portions each include a heat capacity less than about 1.38 J/cm3/K. In another example, a catalytic washcoat layer can be provided for coating the porous ceramic substrate walls and the porous ceramic beveled corner portions. Methods for producing a pass-through catalytic substrate also provide porous ceramic beveled corner portions.
摘要翻译:通过催化基底可以包括多个多孔陶瓷基底壁,其限定在催化底物的入口端和出口端之间延伸的流动通道。 通过催化基板可以包括位于流动通道内的基板壁的交叉角处的多个多孔陶瓷斜角部分。 在一个示例中,多孔陶瓷斜角部分各自包括小于约1.38J / cm 3 / K的热容量。 在另一个实例中,可以提供催化涂层,用于涂覆多孔陶瓷基体壁和多孔陶瓷斜角部分。 通过催化基板的制造方法也提供多孔陶瓷斜角部。
摘要:
Refractory materials are provided which contain P2O5/R2O3 constituents, where R is Y, Sc, Er, Lu, Yb, Tm, Ho, Dy, Tb, Gd, or a combination thereof, and/or V2O5/R′2O3 constituents where R′ is Y, Sc, one or more rare earth elements, or a combination thereof. In certain embodiments, the refractory materials are xenotime-type materials and/or xenotime-stabilized zircon-type materials. The refractory materials can be used in the manufacture of glass and glass-ceramics. For example, the refractory materials, especially those that contain P2O5/R2O3 constituents, can be used as forming structures (“isopipes”) in the fusion process for making flat sheets of glass such as the glass sheets used as substrates in the manufacture of flat panel displays.
摘要翻译:提供含有P2O5 / R2O3组分的耐火材料,其中R是Y,Sc,Er,Lu,Yb,Tm,Ho,Dy,Tb,Gd或它们的组合,和/或V 2 O 5 / R' '是Y,Sc,一种或多种稀土元素,或它们的组合。 在某些实施方案中,耐火材料是堇青石型材料和/或堇青石稳定的锆石型材料。 耐火材料可用于制造玻璃和玻璃陶瓷。 例如,耐火材料,特别是含有P 2 O 5 / R 2 O 3成分的耐火材料,可以用于制造平板玻璃的熔融过程中的成形结构(等压槽),例如在制造平板显示器时用作基板的玻璃板 。
摘要:
Refractory materials are provided which contain P2O5/R2O3 constituents, where R is Y, Sc, Er, Lu, Yb, Tm, Ho, Dy, Tb, Gd, or a combination thereof, and/or V2O5/R′2O3 constituents where R′ is Y, Sc, one or more rare earth elements, or a combination thereof. In certain embodiments, the refractory materials are xenotime-type materials and/or xenotime-stabilized zircon-type materials. The refractory materials can be used in the manufacture of glass and glass-ceramics. For example, the refractory materials, especially those that contain P2O5/R2O3 constituents, can be used as forming structures (“isopipes”) in the fusion process for making flat sheets of glass such as the glass sheets used as substrates in the manufacture of flat panel displays.
摘要翻译:提供含有P2O5 / R2O3组分的耐火材料,其中R是Y,Sc,Er,Lu,Yb,Tm,Ho,Dy,Tb,Gd或它们的组合,和/或V 2 O 5 / R' '是Y,Sc,一种或多种稀土元素,或它们的组合。 在某些实施方案中,耐火材料是堇青石型材料和/或堇青石稳定的锆石型材料。 耐火材料可用于制造玻璃和玻璃陶瓷。 例如,耐火材料,特别是含有P 2 O 5 / R 2 O 3成分的耐火材料,可以用于制造平板玻璃的熔融方法中的成形结构(“等压槽”),例如在制造平面时用作基板的玻璃板 面板显示。
摘要:
Described herein are methods for making microfluidic devices comprising glass or glass-containing materials, wherein the methods have decreased cost and/or improved dimensional properties over similar formed glass articles produced using current techniques.
摘要:
Refractory materials are provided which contain P2O5/R2O3 constituents, where R is Y, Sc, Er, Lu, Yb, Tm, Ho, Dy, Tb, Gd, or a combination thereof, and/or V2O5/R′2O3 constituents where R′ is Y, Sc, one or more rare earth elements, or a combination thereof. In certain embodiments, the refractory materials are xenotime-type materials and/or xenotime-stabilized zircon-type materials. The refractory materials can be used in the manufacture of glass and glass-ceramics. For example, the refractory materials, especially those that contain P2O5/R2O3 constituents, can be used as forming structures (“isopipes”) in the fusion process for making flat sheets of glass such as the glass sheets used as substrates in the manufacture of flat panel displays.
摘要翻译:提供含有P2O5 / R2O3组分的耐火材料,其中R是Y,Sc,Er,Lu,Yb,Tm,Ho,Dy,Tb,Gd或它们的组合,和/或V 2 O 5 / R' '是Y,Sc,一种或多种稀土元素,或它们的组合。 在某些实施方案中,耐火材料是堇青石型材料和/或堇青石稳定的锆石型材料。 耐火材料可用于制造玻璃和玻璃陶瓷。 例如,耐火材料,特别是含有P 2 O 5 / R 2 O 3成分的耐火材料,可用于制造平板玻璃的熔融工艺中的成形结构(“等压槽”),例如在制造平面时用作基板的玻璃板 面板显示。