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    • 5. 发明授权
    • Gettered high pressure sodium lamp
    • 高压钠灯
    • US4620129A
    • 1986-10-28
    • US728556
    • 1985-04-29
    • Krishan L. Luthra
    • Krishan L. Luthra
    • H01J61/06H01J61/073H01J61/26H01J17/04
    • H01J61/26
    • High pressure sodium lamps have been subject to progressive reduction in pressure of contained sodium with attendant reduction in lighting quality. It has now been discovered that modification of lamp components permits the pressure of contained sodium to be maintained at higher levels. Emission materials enclosed within the lamp are altered to limit reactive oxygen in the lamp atmosphere. A thermionic electrode is equipped with an improved emission mix composition as illustrated in areas A and B of the triaxial plot of FIG. 3 and an oxygen getter is intermixed with the mix composition. The oxygen getter is a metal which forms a highly stable oxide and may be at least one selected from the group consisting of titanium, zirconium, hafnium, tantalum and yttrium.
    • 高压钠灯已经逐渐降低了所含钠的压力,伴随着照明质量的降低。 现在已经发现灯组件的修改允许所含钠的压力保持在更高的水平。 改变封装在灯内的发射材料,以限制灯泡气氛中的活性氧。 如图3的三轴图的区域A和B所示,热电极装备有改进的发射混合物组合物。 3和氧吸气剂与混合组合物混合。 氧气吸气剂是形成高度稳定的氧化物的金属,并且可以是选自钛,锆,铪,钽和钇中的至少一种。
    • 7. 发明授权
    • Coating systems for titanium oxidation protection
    • 氧化钛保护涂层系统
    • US5077140A
    • 1991-12-31
    • US511162
    • 1990-04-17
    • Krishan L. LuthraDouglas W. McKee
    • Krishan L. LuthraDouglas W. McKee
    • C22C19/00C22C38/00C22C38/18C23C4/06C23C4/08
    • C23C4/08C23C4/073Y02T50/67Y10S428/937Y10T428/12806Y10T428/12931
    • Coatings that provide substantial oxidation protection for titanium substrates are comprised of a continuous coating of ductile MCrAl or ductile MCr alloys where M is at least one metal selected from the group consisting of iron, nickel, and cobalt. Ductile MCrAl alloys are comprised of, by weight percent: about 10 to 40 percent chromium, about 4 to 10 percent aluminum, and the balance substanitally iron; about 8 to 40 percent chromium, about 4 to 10 percent aluminum, and the balance substantially nickel; or about 10 to 25 percent chromium, about 4 to 5.5 percent aluminum, and the balance substantially cobalt. Ductile MCr alloys are comprised of, by weight percent: about 20 to 40 percent chromium, and the balance substantially iron; about 20 to 50 percent chromium, and the balance substantially nickel; or about 15 to 35 percent chromium, and the balance substantially cobalt. The coatings can be deposited by plasma spraying, chemical vapor deposition, or physical vapor deposition and remain adherent on titanium substrates during repeated thermal cycling while providing substantial oxidation protection up to about 950.degree. C.
    • 为钛基板提供大量氧化保护的涂层由延性MCrAl或延性MCr合金的连续涂层组成,其中M是选自铁,镍和钴中的至少一种金属。 延性MCrAl合金以重量百分比计:约10%至40%的铬,约4%至10%的铝,余量为铁; 约8至40%的铬,约4至10%的铝,余量基本上为镍; 或约10至25%的铬,约4至5.5%的铝,余量基本上为钴。 球墨铸铁合金由重量百分比组成:约20%至40%的铬,余量基本上为铁; 约20至50%的铬,余量基本上为镍; 或约15至35%的铬,余量基本上为钴。 涂层可以通过等离子体喷涂,化学气相沉积或物理气相沉积沉积,并在重复热循环过程中保持粘附在钛基板上,同时提供高达约950℃的大量氧化保护。
    • 9. 发明授权
    • Method of making a ceramic composite by infiltration of a ceramic preform
    • 通过陶瓷预制件的渗透制造陶瓷复合材料的方法
    • US5628938A
    • 1997-05-13
    • US342483
    • 1994-11-18
    • D. SangeetaSvante ProchazkaKrishan L. Luthra
    • D. SangeetaSvante ProchazkaKrishan L. Luthra
    • C04B35/573B05B3/00
    • C04B35/573
    • A method for making a composite ceramic article by infiltration of a sintered ceramic preform with an infiltrate phase. The ceramic preform is made by directionally solidifying a liquid medium containing a dispersion of ceramic particles to produce a green, porous ceramic preform a plurality of interconnected lamelli that are partially separated from one another by complementary interlamellar regions, removing the solidified liquid medium and sintering the ceramic preform. This method may be used to make silicon carbide composites where a silicon carbide preform is first infiltrated with carbon to coat the lamelli of the preform, followed by infiltration of the carbon coated preform with molten silicon, whereby the molten silicon and carbon react to form silicon carbide in the interlamellar regions. The ceramic preform may also be coated with a thin, diffusion-inhibiting ceramic layer prior to infiltration in order to prevent interdiffusion between the lamelli of the preform and the infiltrate phase, and provide a plurality of mechanically weak, crack deflecting interfaces within the composite article.
    • 一种通过浸渗相的烧结陶瓷预型体的渗透制造复合陶瓷制品的方法。 通过定向凝固含有陶瓷颗粒分散体的液体介质来制造陶瓷预制件,以通过互补的层间区域彼此部分地分离出多个相互连接的薄片以形成多孔互连的薄片,除去固化的液体介质并烧结 陶瓷预制件。 该方法可用于制造碳化硅复合材料,其中碳化硅预成型件首先用碳渗透以涂覆预成型件的薄片,随后用熔融硅渗透碳涂覆的预制件,由此熔融硅和碳反应形成硅 在层间区域的碳化物。 陶瓷预制件还可以在渗透之前涂覆有薄的扩散抑制性陶瓷层,以防止预成型件的薄片与渗透相之间的相互扩散,并且在复合制品内提供多个机械弱的裂纹偏转界面 。