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公开(公告)号:US20170113440A1
公开(公告)日:2017-04-27
申请号:US15316993
申请日:2015-06-09
Applicant: CORNING INCORPORATED
Inventor: Paul George Rickerl , Sarko Cherekdjian
CPC classification number: B32B17/10293 , B32B3/02 , B32B7/12 , B32B17/10036 , B32B17/10119 , B32B17/10761 , B32B17/1077 , B32B17/10788 , B32B17/10825 , B32B17/10871 , B32B17/10889 , B32B17/10972 , B32B37/06 , B32B37/1009 , B32B37/12 , B32B37/18 , B32B38/0012 , B32B2250/02 , B32B2255/26 , B32B2315/08 , B32B2605/006
Abstract: A method for finishing an edge of a glass laminate structure comprising the steps of assembling a glass laminate structure having a first glass sheet, a second glass sheet and an interlayer material intermediate the first and second glass sheets and placing a compressive material on a first edge of the assembled structure. A vacuum can be applied to a second edge of the assembled structure and the assembled structure heated to a predetermined temperature at or above a softening temperature of the interlayer material. The vacuum and temperature can be maintained for a predetermined period of time whereby the compressive material provides an in situ finish for the first edge of the glass laminate structure.
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公开(公告)号:US20160356942A1
公开(公告)日:2016-12-08
申请号:US14913857
申请日:2014-08-20
Applicant: CORNING INCORPORATED
Inventor: Sarko Cherekdjian , Charles Mitchel Sorensen, JR.
CPC classification number: G02B6/0051 , B32B17/10064 , B32B17/10137 , B32B17/10541 , B32B17/10743 , B32B17/10752 , B32B17/10761 , B32B17/10788 , B32B2307/412 , B32B2307/422 , F21S8/00 , F21Y2105/00 , F21Y2115/10 , G02B6/0011 , G02B6/0031 , G02B6/0073 , G02B6/0093 , H05B33/0845
Abstract: A lighting fixture having a glass structure having a first sheet of fusion drawn, chemically strengthened glass, a clear sheet element, a diffusing element having a first surface and a second surface, and a light source situated along one or more edges of the clear sheet element to thereby direct light into the clear sheet element. Another lighting fixture having an acrylic sheet with dispersive particles embedded therein that transfer light perpendicular to an axis of injection of the dispersive particles, the acrylic sheet having a first surface and a second surface. This lighting fixture also includes a first sheet of fusion drawn, chemically strengthened glass positioned on the first surface and a light source situated along one or more edges of the acrylic sheet to thereby direct light into the clear sheet element.
Abstract translation: 一种具有玻璃结构的照明器具,其具有第一拉伸片,化学强化玻璃,透明片元件,具有第一表面和第二表面的漫射元件以及沿着透明片的一个或多个边缘设置的光源 从而将光引导到透明片元件中。 具有嵌入其中的分散颗粒的丙烯酸片材的另一照明器具传送垂直于分散颗粒注射轴的光,丙烯酸片材具有第一表面和第二表面。 该照明器具还包括位于第一表面上的第一片融化拉伸化学强化玻璃和沿着丙烯酸类片材的一个或多个边缘设置的光源,从而将光引导到透明片材中。
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公开(公告)号:US20150202845A1
公开(公告)日:2015-07-23
申请号:US14418982
申请日:2013-08-01
Applicant: CORNING INCORPORATED
Inventor: Sarko Cherekdjian , Charles Mitchel Sorensen, JR.
IPC: B32B17/10
CPC classification number: B32B17/10045 , B32B17/10137 , B32B17/10743 , B32B17/10761 , B32B17/1077 , B32B17/10788 , B32B2250/42 , B32B2369/00 , B32B2571/02 , F41H5/0407 , Y10T428/24967 , Y10T428/31507 , Y10T428/31573 , Y10T428/31601 , Y10T428/3163
Abstract: A multi-layer glass structure is provided having n layers of annealed or chemically strengthened glass and n−1 layers of a polymer interlayer where n is a positive integer greater than 2. In another embodiment, a glass laminate structure is provided having a plurality of annealed or chemically strengthened glass sheets, one or more polymeric interlayers positioned between adjacent annealed or chemically strengthened glass sheets, and a thin annealed or chemically strengthened glass sheet on a first side of the glass laminate structure.
Abstract translation: 提供具有n层退火或化学强化玻璃和n-1层聚合物中间层的多层玻璃结构,其中n是大于2的正整数。在另一个实施方案中,提供了一种玻璃层压结构,其具有多个 退火或化学强化的玻璃板,位于相邻退火或化学强化玻璃板之间的一个或多个聚合物夹层,以及在玻璃层压结构的第一侧上的薄退火或化学强化的玻璃板。
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公开(公告)号:US20170369989A1
公开(公告)日:2017-12-28
申请号:US15630272
申请日:2017-06-22
Applicant: CORNING INCORPORATED
Inventor: Sarko Cherekdjian , Benedict Osobomen Egboiyi , William Brashear Mattingly, III , Michael Yoshiya Nishimoto , Toshihiko Ono , Parkash Chandra Panda , Trevor Edward Wilantewicz
Abstract: Provided herein are ion-implanted glass based articles with improved flaw suppression properties. The ion-implanted glass based articles generally have a final indent fracture threshold (IFT) load of at least 650 grams, and/or a scratch threshold force of at least 10 N, which represents at least 1.25-fold enhancement compared to the glass based article prior to ion-implantation. Factors affecting the efficacy of the ion implantation process can include the IFT load of the starting glass or glass ceramic substrate (native IFT load), ion type, ion dose, implant energy, beam current, and glass temperature.
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