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1.发明授权Method of strengthening glass by plasma induced ion exchanges, and articles made according to the same 有权通过等离子体诱导的离子交换加强玻璃的方法,以及根据其制造的制品公开(公告)号:US09051214B2
公开(公告)日:2015-06-09
申请号:US13137698
申请日:2011-09-02
申请人: Vijayen S. Veerasamy , Xuequn Hu , Glenn A. Cerny
发明人: Vijayen S. Veerasamy , Xuequn Hu , Glenn A. Cerny
CPC分类号: C03C21/007 , C03C23/006
摘要: Certain example embodiments relate to an improved method of strengthening glass substrates (e.g., soda lime silica glass substrates). In certain examples, a glass substrate may be chemically strengthened by creating an electric field within the glass. In certain cases, the chemical tempering may be performed by surrounding the substrate by a plasma including certain ions, such as Li+, K+, Mg2+, and/or the like. In some cases, these ions may be forced into the glass substrate due to the half-cycles of the electric field generated by the electrodes that formed the plasma. This may advantageously chemically strengthen a glass substrate on a substantially reduced time scale. In other example embodiments, an electric field may be set in a float bath such that sodium ions are driven from the molten glass ribbon into the tin bath, which may advantageously result in a stronger glass substrate with reduced sodium content.
摘要翻译: 某些示例性实施例涉及加强玻璃基板(例如,钠钙石英玻璃基板)的改进方法。 在某些实例中,通过在玻璃内产生电场,玻璃基底可被化学强化。 在某些情况下,化学回火可以通过包括诸如Li +,K +,Mg 2+等的某些离子的等离子体包围衬底来进行。 在一些情况下,由于形成等离子体的电极产生的电场的半周期,这些离子可能被迫进入玻璃基板。 这可以有利地以显着降低的时间尺度化学强化玻璃基板。 在其他示例性实施例中,可以将电场设置在浮法槽中,使得钠离子从熔融玻璃带驱动到锡浴中,这可有利地导致具有降低的钠含量的更强的玻璃基板。
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公开(公告)号:US09604877B2
公开(公告)日:2017-03-28
申请号:US13137697
申请日:2011-09-02
申请人: Vijayen S. Veerasamy , Xuequn Hu , Glenn A. Cerny
发明人: Vijayen S. Veerasamy , Xuequn Hu , Glenn A. Cerny
CPC分类号: C03C21/007 , C03C23/0055 , C03C23/006 , C03C25/607 , C03C25/6286 , C23C14/48 , C23C16/513 , H01J37/32018 , H01J2237/327
摘要: Certain example embodiments relate to an improved method of strengthening glass substrates (e.g., soda lime silica glass substrates). In certain examples, a glass substrate may be chemically strengthened by creating an electric field within the glass. In certain cases, the chemical tempering may be performed by surrounding the substrate by a plasma including certain ions, such as Li+, K+, Mg2+, and/or the like. In some cases, these ions may be forced into the glass substrate due to the half-cycles of the electric field generated by the electrodes that formed the plasma. This may advantageously chemically strengthen a glass substrate on a substantially reduced time scale. In other example embodiments, an electric field may be set in a float bath such that sodium ions are driven from the molten glass ribbon into the tin bath, which may advantageously result in a stronger glass substrate with reduced sodium content.
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3.发明申请Method of strengthening glass by plasma induced ion exchanges in connection with tin baths, and articles made according to the same 有权通过与锡浴相关的等离子体诱导离子交换来加强玻璃的方法,以及根据其制造的制品公开(公告)号:US20130059717A1
公开(公告)日:2013-03-07
申请号:US13137696
申请日:2011-09-02
申请人: Vijayen S. Veerasamy , Xuequn Hu , Glenn A. Cerny
发明人: Vijayen S. Veerasamy , Xuequn Hu , Glenn A. Cerny
CPC分类号: C03C21/007 , C03C23/006
摘要: Certain example embodiments relate to an improved method of strengthening glass substrates (e.g., soda lime silica glass substrates). In certain examples, a glass substrate may be chemically strengthened by creating an electric field within the glass. In certain cases, the chemical tempering may be performed by surrounding the substrate by a plasma including certain ions, such as Li+, K+, Mg2+, and/or the like. In some cases, these ions may be forced into the glass substrate due to the half-cycles of the electric field generated by the electrodes that formed the plasma. This may advantageously chemically strengthen a glass substrate on a substantially reduced time scale. In other example embodiments, an electric field may be set in a float bath such that sodium ions are driven from the molten glass ribbon into the tin bath, which may advantageously result in a stronger glass substrate with reduced sodium content.
摘要翻译: 某些示例性实施例涉及加强玻璃基板(例如,钠钙石英玻璃基板)的改进方法。 在某些实例中,通过在玻璃内产生电场,玻璃基底可被化学强化。 在某些情况下,化学回火可以通过包括诸如Li +,K +,Mg 2+等的某些离子的等离子体包围衬底来进行。 在一些情况下,由于形成等离子体的电极产生的电场的半周期,这些离子可能被迫进入玻璃基板。 这可以有利地以显着降低的时间尺度化学强化玻璃基板。 在其他示例性实施例中,可以将电场设置在浮法槽中,使得钠离子从熔融玻璃带驱动到锡浴中,这可有利地导致具有降低的钠含量的更强的玻璃基板。
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公开(公告)号:US09988304B2
公开(公告)日:2018-06-05
申请号:US13137696
申请日:2011-09-02
申请人: Vijayen S. Veerasamy , Xuequn Hu , Glenn A. Cerny
发明人: Vijayen S. Veerasamy , Xuequn Hu , Glenn A. Cerny
CPC分类号: C03C21/007 , C03C23/006
摘要: Certain example embodiments relate to an improved method of strengthening glass substrates (e.g., soda lime silica glass substrates). In certain examples, a glass substrate may be chemically strengthened by creating an electric field within the glass. In certain cases, the chemical tempering may be performed by surrounding the substrate by a plasma including certain ions, such as Li+, K+, Mg2+, and/or the like. In some cases, these ions may be forced into the glass substrate due to the half-cycles of the electric field generated by the electrodes that formed the plasma. This may advantageously chemically strengthen a glass substrate on a substantially reduced time scale. In other example embodiments, an electric field may be set in a float bath such that sodium ions are driven from the molten glass ribbon into the tin bath, which may advantageously result in a stronger glass substrate with reduced sodium content.
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公开(公告)号:US20130059160A1
公开(公告)日:2013-03-07
申请号:US13137698
申请日:2011-09-02
申请人: Vijayen S. Veerasamy , Xuequn Hu , Glenn A. Cerny
发明人: Vijayen S. Veerasamy , Xuequn Hu , Glenn A. Cerny
CPC分类号: C03C21/007 , C03C23/006
摘要: Certain example embodiments relate to an improved method of strengthening glass substrates (e.g., soda lime silica glass substrates). In certain examples, a glass substrate may be chemically strengthened by creating an electric field within the glass. In certain cases, the chemical tempering may be performed by surrounding the substrate by a plasma including certain ions, such as Li+, K+, Mg2+, and/or the like. In some cases, these ions may be forced into the glass substrate due to the half-cycles of the electric field generated by the electrodes that formed the plasma. This may advantageously chemically strengthen a glass substrate on a substantially reduced time scale. In other example embodiments, an electric field may be set in a float bath such that sodium ions are driven from the molten glass ribbon into the tin bath, which may advantageously result in a stronger glass substrate with reduced sodium content.
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6.发明申请Method of strengthening glass using plasma torches and/or arc jets, and articles made according to the same 有权使用等离子体炬和/或电弧喷射加强玻璃的方法以及根据其制造的制品公开(公告)号:US20130059087A1
公开(公告)日:2013-03-07
申请号:US13137697
申请日:2011-09-02
申请人: Vijayen S. Veerasamy , Xuequn Hu , Glenn A. Cerny
发明人: Vijayen S. Veerasamy , Xuequn Hu , Glenn A. Cerny
IPC分类号: C23C4/06
CPC分类号: C03C21/007 , C03C23/0055 , C03C23/006 , C03C25/607 , C03C25/6286 , C23C14/48 , C23C16/513 , H01J37/32018 , H01J2237/327
摘要: Certain example embodiments relate to an improved method of strengthening glass substrates (e.g., soda lime silica glass substrates). In certain examples, a glass substrate may be chemically strengthened by creating an electric field within the glass. In certain cases, the chemical tempering may be performed by surrounding the substrate by a plasma including certain ions, such as Li+, K+, Mg2+, and/or the like. In some cases, these ions may be forced into the glass substrate due to the half-cycles of the electric field generated by the electrodes that formed the plasma. This may advantageously chemically strengthen a glass substrate on a substantially reduced time scale. In other example embodiments, an electric field may be set in a float bath such that sodium ions are driven from the molten glass ribbon into the tin bath, which may advantageously result in a stronger glass substrate with reduced sodium content.
摘要翻译: 某些示例性实施例涉及加强玻璃基板(例如,钠钙石英玻璃基板)的改进方法。 在某些实例中,通过在玻璃内产生电场,玻璃基底可被化学强化。 在某些情况下,化学回火可以通过包括诸如Li +,K +,Mg 2+等的某些离子的等离子体包围衬底来进行。 在一些情况下,由于形成等离子体的电极产生的电场的半周期,这些离子可能被迫进入玻璃基板。 这可以有利地以显着降低的时间尺度化学强化玻璃基板。 在其他示例性实施例中,可以将电场设置在浮法槽中,使得钠离子从熔融玻璃带驱动到锡浴中,这可有利地导致具有降低的钠含量的更强的玻璃基板。
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7.发明授权公开(公告)号:US10431354B2
公开(公告)日:2019-10-01
申请号:US14145585
申请日:2013-12-31
摘要: Certain example embodiments of this invention relate to methods for large area graphene precipitation onto glass, and associated articles/devices. For example, a coated article including a graphene-inclusive film on a substrate, and/or a method of making the same, is provided. A metal-inclusive catalyst layer (e.g., of or including Ni and/or the like) is disposed on the substrate. The substrate with the catalyst layer thereon is exposed to a precursor gas and a strain-inducing gas at a temperature of no more than 900 degrees C. Graphene is formed and/or allowed to form both over and contacting the catalyst layer, and between the substrate and the catalyst layer, in making the coated article. The catalyst layer, together with graphene formed thereon, is removed, e.g., through excessive strain introduced into the catalyst layer as associated with the graphene formation. Products including such articles, and/or methods of making the same, also are contemplated herein.
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8.发明授权Method of making heat treated coated article using carbon based coating and protective film 有权使用碳基涂层和保护膜制作热处理涂层制品的方法公开(公告)号:US09038419B2
公开(公告)日:2015-05-26
申请号:US13491743
申请日:2012-06-08
CPC分类号: C03C17/22 , C03B25/02 , C03B27/00 , C03C17/3435 , C03C17/3441 , C03C2217/78 , C03C2218/328 , Y10T428/30
摘要: A method of making a heat treated (HT) substantially transparent coated article to be used in shower door applications, window applications, tabletop applications, or any other suitable applications. Certain embodiments relate to a method of making a coated article including heat treating a glass substrate coated with at least layer of or including carbon (e.g., diamond-like carbon (DLC)) and an overlying protective film thereon. The protective film may be of or include both (a) an oxygen blocking or barrier layer, and (b) a release layer of or including zinc oxynitride (e.g., ZnOxNz). Following and/or during heat treatment (e.g., thermal tempering, or the like) the protective film may be entirely or partially removed.
摘要翻译: 制造用于淋浴门应用,窗户应用,桌面应用或任何其它合适应用的热处理(HT)基本上透明的涂层制品的方法。 某些实施方案涉及制备涂覆制品的方法,包括热处理涂覆有至少一层或包含碳的玻璃基底(例如,类金刚石碳(DLC))和其上覆盖的保护膜。 保护膜可以是(a)氧阻挡层或阻挡层,或者(b)氮氧化锌(例如ZnOxNz)的剥离层或者包括氧化锌的剥离层。 继续和/或在热处理(例如热回火等)期间,可以完全或部分地去除保护膜。
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公开(公告)号:US08858748B2
公开(公告)日:2014-10-14
申请号:US12805145
申请日:2010-07-14
申请人: Vijayen S. Veerasamy
发明人: Vijayen S. Veerasamy
IPC分类号: B29C65/00 , B31B1/60 , B32B37/00 , B32B17/00 , B32B17/10 , C03C27/00 , G02C7/00 , G02F1/03 , G02F1/07 , G02B21/18 , G02F1/15 , E06B3/67 , G02F1/153 , E06B9/24
CPC分类号: G02F1/15 , B32B17/10045 , B32B17/10055 , B32B17/10174 , B32B17/10761 , B32B17/10981 , E06B3/6722 , E06B9/24 , E06B2009/2464 , G02F1/1508 , G02F1/1523 , G02F1/1525 , G02F1/1533 , Y10T156/10 , Y10T156/1062
摘要: Certain example embodiments of this invention relate to electrochromic (EC) devices, assemblies incorporating electrochromic devices, and/or methods of making the same. More particularly, certain example embodiments of this invention relate to improved EC materials, EC device stacks, high-volume manufacturing (HVM) compatible process integration schemes, and/or high-throughput low cost deposition sources, equipment, and factories.
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10.发明授权Vacuum insulated glass (VIG) unit including nano-composite pillars, and/or methods of making the same 有权包括纳米复合柱的真空绝热玻璃(VIG)单元和/或制造它们的方法公开(公告)号:US08679598B2
公开(公告)日:2014-03-25
申请号:US12923839
申请日:2010-10-08
申请人: Vijayen S. Veerasamy
发明人: Vijayen S. Veerasamy
CPC分类号: E06B3/673 , C03C27/10 , E06B3/6612 , E06B3/66304 , E06B3/66333 , Y02A30/25 , Y02B80/22 , Y02B80/24
摘要: Certain example embodiments of this invention relate to composite pillar arrangements for VIG units that include both harder and softer materials. The softer materials are located on the outside or extremities of the central, harder pillar material. In certain example embodiments, a high aspect ratio mineral lamellae is separated by an organic “glue” or polymer. When provided around a high strength pillar, the combination of the pillar and such a nano-composite structure may advantageously result in superior strength compared to a monolithic system, e.g., where significant wind loads, thermal stresses, and/or the like are encountered.
摘要翻译: 本发明的某些示例性实施例涉及包括较硬和较软材料的VIG单元的复合支柱装置。 较软的材料位于中央较硬的支柱材料的外侧或四肢处。 在某些示例性实施例中,高长宽比矿物薄片由有机“胶”或聚合物分离。 当围绕高强度柱提供时,与单块系统相比,柱和这种纳米复合结构的组合可以有利地产生优异的强度,例如在遇到显着的风荷载,热应力等情况下。
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