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    • 3. 发明申请
    • METHOD FOR MAKING MICROFLUID DEVICES
    • 制造微流体装置的方法
    • WO2008106160A1
    • 2008-09-04
    • PCT/US2008/002584
    • 2008-02-27
    • CORNING INCORPORATEDDANNOUX, Thierry, L.MARQUES, Gaspar, P.MORENA, Robert, M.TANNER, Cameron, W.
    • DANNOUX, Thierry, L.MARQUES, Gaspar, P.MORENA, Robert, M.TANNER, Cameron, W.
    • C03B23/203C03B11/08
    • C03B23/203B81B2201/051B81C99/0085B81C2201/019B81C2201/036C03B2215/412
    • 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. In particular, a first piece of rigid, non-stick material is provided, having a patterned molding surface; a first amount of a glass-containing composition is provided; the first amount of glass-containing composition is contacted with the patterned molding surface and pressed between the patterned molding surface and a second surface; the piece of rigid non-stick material and the first amount of glass-containing composition are heated together sufficiently to soften the amount glass-containing composition such that the patterned molding surface is replicated in the first amount of glass-containing composition, forming a formed glass- containing article; at least a portion of the formed glass-containing article is sealed to create a microfluidic device having at least one fluidic passage therethrough.
    • 本文描述了用于制造包含玻璃或含玻璃材料的微流体装置的方法,其中相对于使用当前技术制备的相似的成形玻璃制品,所述方法具有降低的成本和/或改善的尺寸性能。 特别地,提供了具有图案化成型表面的第一块刚性不粘材料, 提供第一量的含玻璃组合物; 第一量的含玻璃组合物与图案化的模制表面接触并在图案化的模制表面和第二表面之间被压制; 将刚性不粘材料和第一量的含玻璃组合物充分加热,以使含玻璃组合物的量变软,使得图案化的成型表面在第一量的含玻璃组合物中复制,形成 玻璃制品; 形成的含玻璃制品的至少一部分被密封以产生具有至少一个流体通道的微流体装置。
    • 4. 发明申请
    • STRESS REDUCING BUS BAR FOR AN ELECTROLYTE SHEET AND A SOLID OXIDE FUEL CELL UTILIZING SUCH
    • 应用减少用于电解质板的母线和使用这样的固体氧化物燃料电池
    • WO2007087260A2
    • 2007-08-02
    • PCT/US2007/001675
    • 2007-01-22
    • CORNING INCORPORATEDKETCHAM, Thomas, DST. JULIEN, Dell, JTANNER, Cameron, W.
    • KETCHAM, Thomas, DST. JULIEN, Dell, JTANNER, Cameron, W.
    • H01M8/0247H01M2/208H01M8/0297H01M8/1097H01M8/1226H01M8/1286H01M8/2425H01M2008/1293
    • A bus bar for an electrolyte sheet is provided that includes a bus strip of electrically conductive material in contact with a side edge of the cell or cells in the electrolyte sheet, wherein the amount of material in shoulder portions of the bus strip decreases as the strip approaches end portions of the cell edge to reduce stress. Preferably, such material reduction is accomplished by tapering the shoulder portions of the bus strip. The tapered shape of the shoulders reduces the amount of electrical conductor needed to form the bus bar. The stress reducing bus bar also includes a lead which is orthogonally oriented with respect to the longitudinal axis of the side edge of the cell. The tapered shape of the shoulder portions of the bus strip, in combination with the orthogonally oriented lead, reduces stresses that would otherwise occur between the bus bar and the electrolyte sheet as a result of differences in the thermal coefficient of expansion. The specific shape of the taper in the shoulder portions is selected such that I 2 R losses are substantially minimized along the longitudinal axis of the bus strip.
    • 提供了一种用于电解质片的母线,其包括与电解质片中的电池或电池单元的侧边缘接触的导电材料的母线,其中母线条的肩部中的材料量随条带 接近细胞边缘的端部以减轻压力。 优选地,通过使总线条的肩部逐渐变细来实现这种材料的还原。 肩部的锥形减少了形成母线所需的电导体的数量。 减压母线还包括相对于电池的侧边缘的纵向轴线正交取向的导线。 总线带的肩部的锥形形状与正交取向的导线组合减少了由于热膨胀系数的差异而在汇流条和电解质片之间出现的应力。 选择肩部中的锥形的具体形状,使得沿着母线的纵向轴线基本上最小化了I 2 R的损耗。
    • 8. 发明申请
    • METHODS FOR FORMING COMPOSITIONS CONTAINING GLASS
    • 形成玻璃组合物的方法
    • WO2008106161A1
    • 2008-09-04
    • PCT/US2008/002585
    • 2008-02-27
    • CORNING INCORPORATEDDANNOUX, Thierry LMARQUES, Gaspar PMORENA, Robert MTANNER, Cameron W
    • DANNOUX, Thierry LMARQUES, Gaspar PMORENA, Robert MTANNER, Cameron W
    • C03B11/08
    • C03B11/084B81B2201/051B81C99/0085B81C2201/019B81C2201/036C03B2215/07
    • Methods for molding glass and glass composites, including providing a first structure having a first surface, providing a second structure having a second surface, the second surface being patterned and porous, and disposing between the first and second surfaces an amount of a composition comprising a glass, then heating together the first and second structures and the first amount of the composition sufficiently to soften the first amount of the composition such that the first and second structures, under gravity or an otherwise applied force, move toward each other, such that the pattern of the second surface is formed into the first amount of the composition, then cooling the composition sufficiently to stabilize it, the second structure comprising porous carbon having an open porosity of at least 5% and wherein the amount of the composition is removable from the second surface, without damage to the amount of the composition or to the second surface, such that the second surface is in condition for re-use.
    • 用于模制玻璃和玻璃复合材料的方法,包括提供具有第一表面的第一结构,提供具有第二表面的第二结构,第二表面被图案化和多孔化,并且在第一表面和第二表面之间设置一定量的组合物, 玻璃,然后将第一和第二结构和第一量的组合物充分加热以软化第一量的组合物,使得第一和第二结构在重力或以其他方式施加的力下朝向彼此移动,使得 将第二表面的图案形成为第一量的组合物,然后充分冷却组合物以使其稳定,第二结构包含具有至少5%的开放孔隙率的多孔碳,并且其中组合物的量可从 第二表面,而不损害组合物的量或第二表面,使得第二表面是 在重新使用的条件下。