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    • 2. 发明申请
    • SECURITY LAMINATES WITH INTERLAMINATED TRANSPARENT EMBOSSED POLYMER HOLOGRAM
    • 具有层间透明聚酯聚合物的安全层压板
    • WO2009037332A1
    • 2009-03-26
    • PCT/EP2008/062501
    • 2008-09-19
    • AGFA-GEVAERT N.V.GEUENS, Ingrid
    • GEUENS, Ingrid
    • B32B3/30B32B27/14B42D15/10G09F3/02G03H1/02C09J5/02
    • C09J5/02B32B7/12B32B27/08B32B2307/5825B42D25/328C09J2400/123G03H1/0011G03H1/02G03H1/0244G03H1/0256G03H1/028G03H2240/50G03H2240/54G03H2250/35G03H2250/36Y10T156/10
    • A method for interlaminating an embossed hologram, the embossed hologram comprising an optionally transparent support having two sides, at least one of the two sides either itself being embossed or having a layer thereon which is embossed and a layer of a HRI- material contiguous with the embossed side or embossed layer, comprising the steps of : a) conditioning the outermost surface of the layer of inorganic HRI- material with an alkaline solution or an acidic solution; b) drying the outermost surface of the layer of the inorganic HRI- material thereby providing a conditioned outermost surface of the layer of inorganic HRI-material; c) applying a layer of an adhesive composition to the conditioned outermost surface of the layer of inorganic HRI-material support; and d) laminating the outermost surface of the layer of HRI-material to a polymer film, wherein at least one of the support and the polymer film is transparent; and wherein the HRI material is a material with a refractive index of at least 0.3 higher than that of the embossed material. A laminate obtainable therewith, and a security document comprising the laminate are also disclosed.
    • 一种用于层压压花全息图的方法,所述压花全息图包括具有两个侧面的任选透明的支撑件,所述两个侧面中的至少一个本身被压花或在其上具有被压花的层,并且与所述两面相邻的一层HRI-材料 压花侧或压纹层,包括以下步骤:a)用碱性溶液或酸性溶液调理无机HRI-材料层的最外表面; b)干燥无机HRI-材料层的最外表面,从而提供无机HRI材料层的经调节的最外表面; c)将粘合剂组合物层施加到无机HRI-材料载体层的经调节的最外表面; 以及d)将所述HRI材料层的最外表面层合到聚合物膜上,其中所述载体和所述聚合物膜中的至少一个是透明的; 并且其中所述HRI材料是折射率比所述浮雕材料的折射率高至少0.3的材料。 还公开了一种可获得的层压板,以及包括层压板的安全证件。
    • 3. 发明申请
    • SYSTEM FOR GENERATING LIGHT BY MEANS OF ELECTROLUMINESCENCE
    • 通过电致发光生成光的系统
    • WO2002098177A1
    • 2002-12-05
    • PCT/NL2001/000426
    • 2001-05-31
    • AGFA GEVAERT N.V.KOK, MarkKOK, Robert, Dolf
    • KOK, MarkKOK, Robert, DolfCLOOTS, Tom, Jan, Alice, Maria
    • H05B33/00
    • H05B33/26H05B33/00
    • An EL light wire (221) according to the present invention comprises a core electrode wire (22); a layer with an EL substance (23) provided around said core electrode wire; and an extruded protective layer (225) of a transparent, electrically conducting polymer preferably containing a photoluminescent phosphor, which protective layer acts as outer electrode and is extruded under vacuum conditions around the combination of core electrode wire (22) and EL layer (23). A composite EL light wire (301) according to the present invention comprises an EL assembly (302), comprising two core electrode wires (22 1 , 22 2 ) extending substantially parallel to each other, each provided with a layer with an EL substance (23 1 , 23 2 ) arranged around said core electrode wire, and also a protective layer (304) of a transparent, electrically conducting polymer preferably containing a photoluminescent phosphor, extruded around the EL assembly (302) under vacuum conditions.
    • 根据本发明的EL灯线(221)包括芯电极线(22); 设置在所述芯电极线周围的具有EL物质(23)的层; 以及优选含有光致发光荧光体的透明导电聚合物的挤出保护层(225),该保护层用作外部电极,并且在真空条件下围绕芯电极线(22)和EL层(23)的组合挤出, 。 根据本发明的复合EL灯丝(301)包括EL组件(302),包括基本上彼此平行延伸的两个芯电极线(221,222),每个设置有具有EL物质的层(231, 232),以及在真空条件下围绕EL组件(302)挤出的优选含有光致发光荧光体的透明导电聚合物的保护层(304)。
    • 4. 发明申请
    • PHOTOTHERMOGRAPHIC RECORDING MATERIAL
    • 照相记录材料
    • WO1997004356A1
    • 1997-02-06
    • PCT/EP1996002582
    • 1996-06-13
    • AGFA-GEVAERT N.V.UYTTERHOEVEN, HermanGILLIAMS, YvanGILLEIR, Jan
    • AGFA-GEVAERT N.V.
    • G03C01/498
    • G03C1/49809G03C1/035G03C1/498G03C1/49863G03C1/4989G03C2001/0156G03C2001/03594G03C2200/36G03C2200/43
    • A photothermographic recording material comprising a support and a photo-addressable thermally developable element comprising photosensitive silver halide in catalytic association with a substantially light-insensitive organic silver salt, an organic reducing agent for the substantially light-insensitive organic silver salt in thermal working relationship therewith and a water-soluble or water-dispersible binder, characterized in that the substantially light-insensitive organic silver salt is a silver salt of an organic carboxylic acid, the photo-addressable thermally developable element further comprises a non-ionic or anionic surfactant and the photo-addressable thermally developable element is coatable from an aqueous medium and is capable of producing stable images without a wet-processing step; a process for producing the photothermographic recording material and a photothermographic recording process therefor.
    • 一种光热记录材料,其包括载体和可光寻址的热显影元件,其包含与基本上不光敏的有机银盐催化缔合的感光卤化银,用于与其热处理关系的基本上不光敏的有机银盐的有机还原剂 和一种水溶性或水分散性粘合剂,其特征在于,基本上不光敏的有机银盐是有机羧酸的银盐,光寻址热可显影元件还包含非离子或阴离子表面活性剂, 可光寻址的热显影元件可从水性介质涂布,并且能够在没有湿加工步骤的情况下产生稳定的图像; 光热敏记录材料的制造方法及其光热敏记录方法。
    • 8. 发明申请
    • SECURITY LAMINATES WITH INTERLAMINATED TRANSPARENT EMBOSSED POLYMER HOLOGRAM
    • 具有层间透明聚酯聚合物的安全层压板
    • WO2009037330A1
    • 2009-03-26
    • PCT/EP2008/062495
    • 2008-09-19
    • AGFA-GEVAERT N.V.GEUENS, INGRID
    • GEUENS, INGRID
    • C09J5/00B32B3/30B32B27/14B42D15/10G09F3/02G03H1/02C09J5/02
    • C09J5/00B32B3/30B32B7/12B32B27/08B32B2307/418B32B2425/00B42D25/328B42D25/47C09J5/02C09J2400/146G03H1/02G03H1/0256G03H1/028G03H2250/35G03H2250/36Y10T156/10Y10T428/24736
    • A method for interlaminating a transparent embossed hologram, the transparent embossed hologram comprising a support having two sides, at least one of the two sides either itself being embossed or having a layer thereon which is embossed and a layer of a HRI-material contiguous with the embossed side or embossed layer, comprising the steps of : a) conditioning the outermost surface of the layer of inorganic HRI-material with at least one organic liquid; b) drying the outermost surface of the layer of the inorganic HRI- material thereby providing a conditioned outermost surface of the layer of inorganic HRI-material; c) applying an adhesive layer to the conditioned outermost surface; and d) laminating the outermost surface of inorganic HRI-material to an optionally transparent film, wherein the at least one organic liquid is selected from the group consisting of ketones, ethers, heterocyclic ethers, lactams, amides, halo-aliphatic compounds, nitriles and esters; wherein at least one of the support and the film is transparent; and wherein the HRI-material is a material with a refractive index of at least 0.3 higher than that of the embossed material. A laminate obtainable with the above-mentioned methods and an identity document comprising the laminate are also disclosed.
    • 一种透明压花全息图的层压方法,所述透明压花全息图包括具有两侧的支撑体,所述两侧本身中的至少一个本身被压花或在其上具有压花的层,并且与 压花侧或压纹层,包括以下步骤:a)用至少一种有机液体调理无机HRI材料层的最外表面; b)干燥无机HRI-材料层的最外表面,从而提供无机HRI材料层的经调节的最外表面; c)将粘合剂层施加到经调理的最外表面上; 和d)将无机HRI材料的最外表面层压到任选透明的膜上,其中所述至少一种有机液体选自酮,醚,杂环醚,内酰胺,酰胺,卤代 - 脂族化合物,腈和 酯; 其中所述载体和所述膜中的至少一个是透明的; 并且其中所述HRI材料是折射率比所述压花材料的折射率高至少0.3的材料。 还公开了可以通过上述方法获得的层压体和包含该层压体的身份证件。
    • 10. 发明申请
    • Thermal head printer and process for printing substantially light-insensitive recording material
    • US20040090518A1
    • 2004-05-13
    • US10692479
    • 2003-10-24
    • Agfa-Gevaert N.V.
    • Eric KaertsIvan HoogmartensGeert Defieuw
    • B41J002/335
    • B41J2/33545B41J2/3357
    • A thermal head printer for printing but not perforating a substantially light-insensitive thermographic material, the thermal printer comprising: a transport system having a transport direction, n thermal heads, where n is an integer, each of the thermal heads comprising an array of substantially rectangular energizable heating elements, the heating elements having a length Ln in the transport direction and a pitch Pn between adjacent heating elements, and a means for supplying electrical energy to each of the substantially rectangular energizable heating elements in at least one of the thermal heads, the transport system being capable of transporting the light-insensitive thermographic material in contact or proximity with at least one of the thermal heads, wherein at least one of the thermal heads comprises heating elements for which Ln/Pn is between 0.25 and 0.88; a first process for printing a substantially light-insensitive thermographic material with the above-described thermal head printer; a second process for printing a substantially light-insensitive thermographic material at different printing speeds with a thermal head comprising heating elements without significant variation in image tone, wherein the length of the heating elements in the transport direction of the substantially light-insensitive thermographic material decreases with decreasing printing speed; and a third process for printing a substantially light-insensitive thermographic material at different printing speeds with a different thermal head at each printing speed without significant variation in image tone, wherein each of said different thermal heads comprises heating elements with a different length in the transport direction of the substantially light-insensitive thermographic material and the length of the heating elements in the transport direction of the substantially light-insensitive thermographic material decreases with decreasing printing speed.