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    • 4. 发明授权
    • Method of forming precision glass microlens arrays and a microlens array formed therewith
    • 形成精密玻璃微透镜阵列的方法和由其形成的微透镜阵列
    • US06624948B1
    • 2003-09-23
    • US10036722
    • 2001-12-21
    • Darryl E. MillerSyamal K. GhoshDonn B. Carlton
    • Darryl E. MillerSyamal K. GhoshDonn B. Carlton
    • G02B2710
    • G02B3/0031C03B11/08C03B23/0013C03B2215/414C03B2215/76G02B3/0056
    • A method wherein an array of optical elements is formed by forming a mount, including a plurality of element receiving bores therethrough arranged in a predetermined array; placing the mount on a lower mold surface of a lower mold, inserting a glass preform in each of the plurality of element receiving bores, each glass preform extending through a respective element receiving bore, each glass preform extending beyond a top surface of the mount; heating at least the glass preforms to at least a glass transition temperature thereof, aligning an upper mold having an upper mold surface with a plurality of desired optical features formed therein with the predetermined array- and pressing the glass preforms between the upper mold surface and the lower mold surface to mold the glass preforms into the array of optical elements permanently retained in the mount, the pressing of the glass preforms causing glass from each glass preform to flow generally radially outward therefrom across the top surface of the mount thereby creating an upper flange on each element that aids in retaining each optical element in the mount.
    • 一种方法,其中通过形成安装件形成光学元件阵列,所述安装件包括以预定阵列布置的多个元件接收孔; 将安装件放置在下模具的下模具表面上,将玻璃预制件插入多个元件接收孔中的每一个中,每个玻璃预制件延伸穿过相应的元件接收孔,每个玻璃预制件延伸超过安装件的顶表面; 将至少玻璃预成型件加热至至少其玻璃化转变温度,将具有上模具表面的上模具与其中形成的多个所需的光学特征对准具有预定的阵列,并将玻璃预制件压在上模具表面和 下模具表面以将玻璃预成型件模制成永久保持在安装件中的光学元件阵列,玻璃预制件的按压使得来自每个玻璃预制件的玻璃通过径向向外从其穿过安装件的顶部表面流动,从而形成上凸缘 在每个元件上有助于将每个光学元件保持在底座中。
    • 5. 发明授权
    • Injection molding of ceramic powders using non-gel forming water soluble organic binders
    • 使用非凝胶形成的水溶性有机粘合剂注射成型陶瓷粉末
    • US06843955B2
    • 2005-01-18
    • US09916860
    • 2001-07-27
    • Syamal K. GhoshDonn B. Carlton
    • Syamal K. GhoshDonn B. Carlton
    • A61B5/029A61B5/083A61B5/097A61M16/00A61M16/20B28B1/24
    • A61B5/0836A61B5/029A61B5/097A61M16/024A61M16/0833A61M16/20A61M16/209A61M2230/432
    • A method for compounding gel-free injection molding feed stock for injection molding net-shape ceramic parts, including the steps of: mixing inorganic particles with non-gel forming water soluble organic binders having molecular weight between 1000 and 1,000,000 and that are between 0.5 weight % and 10 weight % based upon the inorganic particles, along with plasticizers, water and processing aids in a mixer to form a mixture, wherein the non-gel forming water soluble organic binders are composed of high and low molecular weight organic binders; compounding the mixed inorganic particles and the non-gel forming water soluble organic binders at a high temperature in the range of between 70° and 98° Centigrade, under shear force, to form a homogenous viscous slurry in the range of 5×103 and 7×104 Pa.sec at a shear rate of 10 sec−1; cooling the homogenous viscous slurry to room temperature to form a compounded solid mass.
    • 一种用于混合注射成型网状陶瓷部件的无凝胶注射成型原料的方法,包括以下步骤:将无机颗粒与分子量在1000和1,000,000之间的非凝胶形成的水溶性有机粘合剂混合并且为0.5重量% %和10重量%,基于无机颗粒,以及增塑剂,水和加工助剂在混合器中形成混合物,其中非凝胶形成的水溶性有机粘合剂由高分子量和低分子量有机粘合剂组成; 将混合的无机颗粒和非凝胶形成的水溶性有机粘合剂在剪切力下在70℃和98℃之间的高温下混合,以形成在5×10 3和 7×10 4 Pa·sec,剪切速率为10sec -1; 将均匀的粘稠浆液冷却至室温,形成复合固体物质。
    • 7. 发明授权
    • Making and using compacted pellets for OLED displays
    • 制造和使用用于OLED显示器的压实颗粒
    • US07238383B2
    • 2007-07-03
    • US10384290
    • 2003-03-07
    • Syamal K. GhoshDonn B. CarltonTukaram K. Hatwar
    • Syamal K. GhoshDonn B. CarltonTukaram K. Hatwar
    • B05D5/06
    • C23C14/12C23C14/26H01L51/56
    • A method of forming a compacted pellet of organic materials adaptable for making an organic layer on a structure which will form part of an OLED display, includes providing a sublimable organic material in a powder form; providing a thermally insulating and non-sublimable inorganic material in a powder form; forming a mixture of the sublimable organic powder and thermally insulating and non-sublimable inorganic powder; placing such mixture into a die and using two punches, a lower and an upper punch, to apply sufficient pressure to the mixture to cause the mixture of powders to consolidate into a solid pellet; applying heat to the die during or prior to applying pressure by the opposing punches to aid in causing the mixture of powders to consolidate into a solid compacted pellet, and removing the pellet from the die.
    • 形成适用于在构成OLED显示器的一部分的结构上形成有机层的有机材料压实颗粒的方法包括提供粉末形式的可升华有机材料; 提供粉末形式的绝热和不可升华的无机材料; 形成可升华的有机粉末和绝热和不可升华的无机粉末的混合物; 将这样的混合物放入模具中并使用两个冲头(下部和上部冲头)向混合物施加足够的压力以使粉末混合物固结成固体颗粒; 在由相对的冲头施加压力期间或之前向模具施加热量以帮助使粉末混合物固结成固体压实的颗粒,并从模具中除去颗粒。