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    • 1. 发明申请
    • IMAGE TRANSFER MEDIA AND METHODS OF USING THE SAME
    • 图像传输介质及其使用方法
    • WO2006081513A3
    • 2006-08-24
    • PCT/US2006003122
    • 2006-01-30
    • AVERY DENNISON CORPSHI MING-KUNHSEIH DONG-TSAIVENKATASANTHANAM SRIRAMHEYDARPOUR RAMIN
    • SHI MING-KUNHSEIH DONG-TSAIVENKATASANTHANAM SRIRAMHEYDARPOUR RAMIN
    • B41M7/00B41M3/00D06P5/00
    • D06P5/007B41M3/008B41M7/0027
    • An image transfer medium for transferring a printed image to a substrate . In a preferred embodiment, the image transfer medium is particularly well-suited for use in transferring an ink- jet printed image to a white substrate, such a a white T-shirt, and comprises an image receiving laminate and an image protecting laminate. The image receiving laminate preferably comprises a base, a release coating coated directly on a surface of the base, a thermoplastic layer coated directly on the release coating, and an ink-receptive layer coated directly on the thermoplastic layer. The image protecting laminate preferably comprises a base, a release coating coated directly on a surface o the base, and a thermoplastic layer coated directly on the release coating. Altrnaively, the ink-receptive layer and the protectiva layer are releasably bonded to first and second areas respectively of the release liner
    • 用于将印刷图像转印到基板的图像转印介质。 在优选实施例中,图像转印介质特别适用于将喷墨印刷图像转印到白色基底(例如白色T恤)上,并且包括图像接收层压板和图像保护层压板。 图像接收叠层优选地包括基底,直接涂覆在基底表面上的剥离涂层,直接涂覆在剥离涂层上的热塑性层和直接涂覆在热塑性层上的墨接受层。 图像保护层压体优选包括基底,直接涂覆在基底表面上的剥离涂层和直接涂覆在剥离涂层上的热塑性层。 传统地,吸墨层和保护层分别可释放地结合到释放衬垫的第一和第二区域
    • 3. 发明申请
    • IMAGE TRANSFER MEDIA AND METHODS OF USING THE SAME
    • 图像传输介质及其使用方法
    • WO2006081513A2
    • 2006-08-03
    • PCT/US2006/003122
    • 2006-01-30
    • AVERY DENNISON CORPORATIONSHI, Ming-KunHSEIH, Dong-TsaiVENKATASANTHANAM, SriramHEYDARPOUR, Ramin
    • SHI, Ming-KunHSEIH, Dong-TsaiVENKATASANTHANAM, SriramHEYDARPOUR, Ramin
    • B41M7/00D06P5/00B41M3/00
    • D06P5/007B41M3/008B41M7/0027
    • An image transfer medium for transferring a printed image to a substrate. In a preferred embodiment, the image transfer medium is particularly well-suited for use in transferring an ink-jet printed image to a white substrate, such as a white T-shirt, and comprises an image receiving laminate and an image protecting laminate. The image receiving laminate preferably comprises a base, a release coating coated directly on a surface of the base, a thermoplastic layer coated directly on the release coating, and an ink-receptive layer coated directly on the thermoplastic layer. The image protecting laminate preferably comprises a base, a release coating coated directly on a surface of the base, and a thermoplastic layer coated directly on the release coating. In one possible use, an image is reverse-printed on the ink-receptive layer. The thermoplastic layer of the image protecting laminate is heat-bonded to the substrate, and its release liner is peeled away. The image is then placed on top of the bonded thermoplastic layer, and heat and pressure are applied to the release liner of the image receiving laminate until the ink-receptive layer and the image bond to the bonded thermoplastic layer. The remaining release liner is then peeled away.
    • 用于将印刷图像转印到基板的图像转印介质。 在优选实施例中,图像转印介质特别适用于将喷墨印刷图像转印到诸如白色T恤的白色基底上,并且包括图像接收层压板和图像保护层压板。 图像接收叠层优选地包括基底,直接涂覆在基底表面上的剥离涂层,直接涂覆在剥离涂层上的热塑性层和直接涂覆在热塑性层上的墨接受层。 图像保护层压体优选包括基底,直接涂覆在基底表面上的剥离涂层和直接涂覆在剥离涂层上的热塑性层。 在一种可能的用途中,图像被反印在墨接受层上。 将图像保护层压板的热塑性层热粘合到基材上,并将其剥离衬垫剥离。 然后将图像放置在结合的热塑性层的顶部,并且将热和压力施加到图像接收层压板的剥离衬垫上,直到接受感光层和图像粘合到结合的热塑性层。 然后将剩余的剥离衬垫剥离。
    • 4. 发明申请
    • METHOD FOR ROLL-TO-ROLL DEPOSITION OF OPTICALLY TRANSPARENT AND HIGH CONDUCTIVITY METALLIC THIN FILMS
    • 光学透明和高导电性金属薄膜的卷对卷沉积方法
    • WO03107079A9
    • 2004-03-04
    • PCT/US0318755
    • 2003-06-12
    • AVERY DENNISON CORPHE XIAO-MINGHEYDARPOUR RAMIN
    • HE XIAO-MINGHEYDARPOUR RAMIN
    • G02F1/1343H01B1/02H01B1/08G02F
    • C23C14/562B29D11/0073C23C14/022C23C14/08C23C14/205G02F1/133305G02F1/13439H01B1/02H01B1/08H05K1/0393H05K3/381H05K2201/0338H05K2203/095H05K2203/1545Y10T428/31504
    • Methods for roll-to-roll deposition of optically transparent and high conductivity metallic thin films are disclosed. In general, a method according to the present invention comprises: (1) providing a flexible plastic substrate; (2) depositing a multi-layered conductive metallic film on the flexible plastic substrate by a thin-film deposition technique to form a composite film; and (3) collecting the composite film in continuous rolls. Typically, the thin conductive metallic film is an InCeO-Ag-InCeO film. Typically, the thin-film deposition technique is DC magnetron sputtering. Another aspect of the invention is a composite film produced by a method according to the present invention. Still another aspect of the invention is a composite film comprising InCeO-Ag-InCeO film formed on a flexible plastic substrate, wherein the composite fillm has a combination of properties including: transmittance of at least 90% throughout the visible region; an electrical resistance of no greater than about 10 ohm/square; a root-mean-square roughness of no greater than about 2.5 nm; and an interlayer adhesion between the InCeO/Ag/InCeO metallic film and the remainder of the composite film that is sufficiently great to survive a 180° peel adhesion test.
    • 公开了用于辊对辊沉积光学透明和高导电率金属薄膜的方法。 通常,根据本发明的方法包括:(1)提供柔性塑料衬底; (2)通过薄膜沉积技术在柔性塑料基板上沉积多层导电金属膜以形成复合膜; 和(3)以连续辊收集复合膜。 通常,薄导电金属膜是InCeO-Ag-InCeO膜。 通常,薄膜沉积技术是DC磁控溅射。 本发明的另一方面是通过根据本发明的方法制造的复合膜。 本发明的又一方面是一种复合薄膜,其包含在柔性塑料基材上形成的InCeO-Ag-InCeO薄膜,其中所述复合填充物具有以下特性的组合:在整个可见光区域的透射率为至少90% 不大于约10欧姆/平方的电阻; 不大于约2.5nm的均方根粗糙度; 以及InCeO / Ag / InCeO金属膜与复合膜的其余部分之间的层间粘合性,其足以经受180°剥离粘合性测试。
    • 6. 发明申请
    • METHOD FOR ROLL-TO-ROLL DEPOSITION OF OPTICALLY TRANSPARENT AND HIGH CONDUCTIVITY METALLIC THIN FILMS
    • 光学透明和高电导率金属薄膜的滚动沉积方法
    • WO03107079B1
    • 2004-10-07
    • PCT/US0318755
    • 2003-06-12
    • AVERY DENNISON CORPHE XIAO-MINGHEYDARPOUR RAMIN
    • HE XIAO-MINGHEYDARPOUR RAMIN
    • G02F1/1343H01B1/02H01B1/08B32B9/04
    • C23C14/562B29D11/0073C23C14/022C23C14/08C23C14/205G02F1/133305G02F1/13439H01B1/02H01B1/08H05K1/0393H05K3/381H05K2201/0338H05K2203/095H05K2203/1545Y10T428/31504
    • Methods for roll-to-roll deposition of optically transparent and high conductivity metallic thin films are disclosed. In general, a method according to the present invention comprises: (1) providing a flexible plastic substrate; (2) depositing a multi-layered conductive metallic film on the flexible plastic substrate by a thin-film deposition technique to form a composite film; and (3) collecting the composite film in continuous rolls. Typically, the thin conductive metallic film is an InCeO-Ag-InCeO film. Typically, the thin-film deposition technique is DC magnetron sputtering. Another aspect of the invention is a composite film produced by a method according to the present invention. Still another aspect of the invention is a composite film comprising InCeO-Ag-InCeO film formed on a flexible plastic substrate, wherein the composite fillm has a combination of properties including: transmittance of at least 90% throughout the visible region; an electrical resistance of no greater than about 10 ohm/square; a root-mean-square roughness of no greater than about 2.5 nm; and an interlayer adhesion between the InCeO/Ag/InCeO metallic film and the remainder of the composite film that is sufficiently great to survive a 180° peel adhesion test.
    • 公开了光学透明和高导电性金属薄膜的卷对卷沉积的方法。 通常,根据本发明的方法包括:(1)提供柔性塑料基板; (2)通过薄膜沉积技术在柔性塑料基板上沉积多层导电金属膜以形成复合膜; 和(3)将复合膜收集在连续辊中。 通常,薄导电金属膜是InCeO-Ag-InCeO膜。 通常,薄膜沉积技术是直流磁控溅射。 本发明的另一方面是通过根据本发明的方法制造的复合膜。 本发明的另一方面是一种复合膜,其包括在柔性塑料基材上形成的InCeO-Ag-InCeO膜,其中复合填料具有以下特性的组合,包括:透过整个可见区域至少90%的透射率; 电阻不大于约10欧姆/平方; 均方根粗糙度不大于约2.5nm; 以及InCeO / Ag / InCeO金属膜与复合膜的剩余部分之间的层间粘合,其足够大以承受180°剥离粘合试验。
    • 8. 发明申请
    • METHOD FOR ROLL-TO-ROLL DEPOSITION OF OPTICALLY TRANSPARENT AND HIGH CONDUCTIVITY METALLIC THIN FILMS
    • 光学透明和高电导率金属薄膜的滚动沉积方法
    • WO2003107079A2
    • 2003-12-24
    • PCT/US2003/018755
    • 2003-06-12
    • AVERY DENNISON CORPORATIONHE, Xiao-MingHEYDARPOUR, Ramin
    • HE, Xiao-MingHEYDARPOUR, Ramin
    • G02F
    • C23C14/562B29D11/0073C23C14/022C23C14/08C23C14/205G02F1/133305G02F1/13439H01B1/02H01B1/08H05K1/0393H05K3/381H05K2201/0338H05K2203/095H05K2203/1545Y10T428/31504
    • Methods for roll-to-roll deposition of optically transparent and high conductivity metallic thin films are disclosed. In general, a method according to the present invention comprises: (1) providing a flexible plastic substrate; (2) depositing a multi-layered conductive metallic film on the flexible plastic substrate by a thin-film deposition technique to form a composite film; and (3) collecting the composite film in continuous rolls. Typically, the thin conductive metallic film is an InCeO-Ag-InCeO film. Typically, the thin-film deposition technique is DC magnetron sputtering. Another aspect of the invention is a composite film produced by a method according to the present invention. Still another aspect of the invention is a composite film comprising InCeO-Ag-InCeO film formed on a flexible plastic substrate, wherein the composite fillm has a combination of properties including: transmittance of at least 90% throughout the visible region; an electrical resistance of no greater than about 10 Ω/square; a root-mean-square roughness of no greater than about 2.5 nm; and an interlayer adhesion between the InCeO/Ag/InCeO metallic film and the remainder of the composite film that is sufficiently great to survive a 180° peel adhesion test.
    • 公开了光学透明和高导电性金属薄膜的卷对卷沉积的方法。 通常,根据本发明的方法包括:(1)提供柔性塑料基板; (2)通过薄膜沉积技术在柔性塑料基板上沉积多层导电金属膜以形成复合膜; 和(3)将复合膜收集在连续辊中。 通常,薄导电金属膜是InCeO-Ag-InCeO膜。 通常,薄膜沉积技术是直流磁控溅射。 本发明的另一方面是通过根据本发明的方法制造的复合膜。 本发明的另一方面是一种复合膜,其包括在柔性塑料基材上形成的InCeO-Ag-InCeO膜,其中复合填料具有以下特性的组合,包括:透过整个可见区域至少90%的透射率; 电阻不大于约10欧姆/平方; 均方根粗糙度不大于约2.5nm; 以及InCeO / Ag / InCeO金属膜与复合膜的剩余部分之间的层间粘合,其足够大以承受180°剥离粘合试验。
    • 10. 发明申请
    • INHERENTLY INK RECEPTIVE FILM SUBSTRATES
    • 独立墨水接收膜基材
    • WO0176885A2
    • 2001-10-18
    • PCT/US0111719
    • 2001-04-11
    • AVERY DENNISON CORPVENKATASANTHANAM SRIRAMHEYDARPOUR RAMINSHIH FRANK YMALLYA PRAKASH
    • VENKATASANTHANAM SRIRAMHEYDARPOUR RAMINSHIH FRANK YMALLYA PRAKASH
    • B41J2/01B41M5/00B41M5/50B41M5/52
    • B41M5/52B41M5/504B41M5/506B41M5/508B41M5/5236B41M5/5254B41M5/5272B41M5/5281Y10T428/24802Y10T428/25Y10T428/28Y10T428/31786Y10T428/31855
    • Ink receptive substrates comprise a base layer formed from a water-insoluble thermoplastic polymer, and an ink receptive layer disposed over the base layer. The ink receptive layer is formed from a melt processable blend of a water-soluble polymer and a substantially water-insoluble polymer, and provides an inherently ink receptive surface without further surface treatment. The ink receptive blend comprises in the range of from 20 to 80 percent by weight water-soluble polymer, and in the range of from 20 to 80 percent by weight substantially water-insoluble polymer based on the total weight of the blend. The blend has a melting temperature in the range of from about 100 to 600EF. Preferred water-soluble polymers include polyvinyl alcohols and polyalkyl oxazolines. Preferred ink receptive substrates of this invention comprise a base layer and ink receptive layer that are formed simultaneously by coextrusion process. Ink receptive substrates of this invention can include the ink receptive layer on one or both surfaces of the base layer, and/or can be constructed in the form of a pressure-sensitive adhesive label, i.e., with a pressure-sensitive adhesive material disposed on a surface of the base layer opposite the ink receptive layer.
    • 油墨接收基材包括由不溶于水的热塑性聚合物形成的基底层和设置在基底层上的墨接受层。 油墨接收层由水溶性聚合物和基本上不溶于水的聚合物的可熔融加工的共混物形成,并且提供固有的油墨接受表面而无需进一步的表面处理。 基于共混物的总重量,油墨接受共混物包含20至80重量%的水溶性聚合物,基于水不溶性聚合物的20至80重量%。 共混物的熔融温度范围为约100-600EF。 优选的水溶性聚合物包括聚乙烯醇和聚烷基恶唑啉。 本发明优选的受墨基材包括通过共挤出方法同时形成的基层和油墨接收层。 本发明的油墨接收基材可以包括在基层的一个或两个表面上的油墨接受层,和/或可以以压敏粘合剂标签的形式构成,即,将压敏粘合剂材料设置在 基底层的与吸墨层相对的表面。