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    • 2. 发明授权
    • Thermally assisted transfer process
    • 热辅助转移过程
    • US5334477A
    • 1994-08-02
    • US976099
    • 1992-11-13
    • Douglas E. BugnerDavid S. HaysJeanne E. KaedingSteven J. Spinelli
    • Douglas E. BugnerDavid S. HaysJeanne E. KaedingSteven J. Spinelli
    • G03G5/05G03G5/147G03G7/00G03G13/16
    • G03G5/0596G03G13/16G03G5/0592G03G5/14791G03G5/14795G03G7/0006G03G7/004
    • A method is provided for non-electrostatically transferring dry toner particles which comprise a toner binder and have a particle size of less than 8 micrometers from the surface of an element to a receiver. The element comprises a conductive substrate and a surface layer which contains an electrically insulating polymeric binder resin matrix which comprises a block copolyester or copolycarbonate having a fluorinated polyether block and the receiver comprises a substrate having a coating of a thermoplastic addition polymer on a surface of the substrate in which the Tg of the polymer is less than approximately 10.degree. C. above the Tg of the toner binder. The method involves contacting the toner particles with the receiver which is heated to a temperature such that the temperature of the thermoplastic polymer coating on the receiver substrate during transfer is at least approximately 15.degree. C. above the Tg of the thermoplastic polymer whereby virtually all of the toner particles are transferred from the surface of the element to the thermoplastic polymer coating on the receiver substrate and the thermoplastic polymer coating is prevented from adhering to the element surface during transfer in the absence of a layer of a release agent on the thermoplastic polymer coating or the element. After transfer, the receiver is separated from the element while the temperature of the thermoplastic polymer coating is maintained above the Tg of the thermoplastic polymer.The method is particularly well suited for providing images having high resolution and low granularity from very small size toner particles.
    • 提供了一种用于非静电转印干调色剂颗粒的方法,所述干调色剂颗粒包含调色剂粘合剂并且具有从元件表面到接收体的小于8微米的粒度。 元件包括导电基底和表面层,其包含电绝缘聚合物粘合剂树脂基质,其包含具有氟化聚醚嵌段的嵌段共聚酯或共聚碳酸酯,并且所述接收剂包括在基材表面上具有热塑性加聚物涂层的基材 基质,其中聚合物的Tg低于调色剂粘合剂的Tg以上约10℃。 该方法包括将调色剂颗粒与接收器接触,该接收器被加热到​​使得转移期间接收器基底上的热塑性聚合物涂层的温度比热塑性聚合物的Tg高至少约15℃, 调色剂颗粒从元件的表面转移到接收器基底上的热塑性聚合物涂层上,并且在热塑性聚合物涂层不存在剥离剂层的情况下,在转移过程中防止热塑性聚合物涂层粘附到元件表面 或元素。 转移后,将接收器与元件分离,同时热塑性聚合物涂层的温度保持在热塑性聚合物的Tg以上。 该方法特别适用于从非常小尺寸的调色剂颗粒提供具有高分辨率和低粒度的图像。
    • 3. 发明授权
    • Thermally assisted transfer process for transferring electrostatographic
toner particles to a thermoplastic bearing receiver
    • 用于将静电色调剂颗粒转移到热塑性轴承接收器的热辅助转印方法
    • US5358820A
    • 1994-10-25
    • US976071
    • 1992-11-13
    • Douglas E. BugnerDavid S. HaysJeanne E. KaedingSteven J. Spinelli
    • Douglas E. BugnerDavid S. HaysJeanne E. KaedingSteven J. Spinelli
    • G03G5/05G03G7/00G03G9/08G03G13/16G03G13/14
    • G03G7/004G03G13/16G03G5/056G03G9/0819
    • A method is provided for non-electrostatically transferring dry toner particles which comprise a toner binder and have a particle size of less than 8 micrometers from the surface of an element to a receiver. The element comprises a conductive substrate and a surface layer which contains an electrically insulating polymeric binder resin matrix which comprises a crystalline side chain polyester or a block copolyester or copolycarbonate having a crystalline side chain polyester block and the receiver comprises a substrate having a coating of a thermoplastic addition polymer on a surface of the substrate in which the Tg of the polymer is less than approximately 10.degree. C. above the Tg of the toner binder. The method involves contacting the toner particles with the receiver which is heated to a temperature such that the temperature of the thermoplastic polymer coating on the receiver substrate during transfer is at least approximately 15.degree. C. above the Tg of the thermoplastic polymer whereby virtually all of the toner particles are transferred from the surface of the element to the thermoplastic polymer coating on the receiver substrate and the thermoplastic polymer coating is prevented from adhering to the element surface during transfer in the absence of a layer of a release agent on the thermoplastic polymer coating or the element. After transfer, the receiver is separated from the element while the temperature of the thermoplastic polymer coating is maintained above the Tg of the thermoplastic polymer.
    • 提供了一种用于非静电转印干调色剂颗粒的方法,所述干调色剂颗粒包含调色剂粘合剂并且具有从元件表面到接收体的小于8微米的粒度。 该元件包括导电基底和表面层,其包含电绝缘聚合物粘合剂树脂基质,其包含结晶侧链聚酯或具有结晶侧链聚酯嵌段的嵌段共聚酯或共聚碳酸酯,并且所述接收剂包含具有 聚合物的Tg在调色剂粘合剂的Tg以上低于约10℃的基材表面上的热塑性加成聚合物。 该方法包括将调色剂颗粒与接收器接触,该接收器被加热到​​使得转移期间接收器基底上的热塑性聚合物涂层的温度比热塑性聚合物的Tg高至少约15℃, 调色剂颗粒从元件的表面转移到接收器基底上的热塑性聚合物涂层上,并且在热塑性聚合物涂层不存在剥离剂层的情况下,在转移过程中防止热塑性聚合物涂层粘附到元件表面 或元素。 转移后,将接收器与元件分离,同时热塑性聚合物涂层的温度保持在热塑性聚合物的Tg以上。
    • 6. 发明授权
    • Glossy inkjet recording medium and methods therefor
    • 光泽喷墨记录介质及其方法
    • US08034422B2
    • 2011-10-11
    • US12436816
    • 2009-05-07
    • Thomas J. DannhauserDouglas E. BugnerSharon R. Girolmo
    • Thomas J. DannhauserDouglas E. BugnerSharon R. Girolmo
    • B41M5/00
    • B41M5/52B41M5/508B41M5/5218B41M5/5254B41M2205/34B41M2205/38
    • A manufacturing an ink-receiving medium comprising the steps of providing a support, treating the support with a salt of a multivalent metal cation, and coating upon one or each side of the support at least one porous ink-receiving top layer from an aqueous coating composition consisting of non-cationic components, wherein the non-cationic components comprise a binder and anionic particles of average particle size less than 2.5 microns, wherein the ink-receiving top layer comprises at least 50% of the total solids by weight, such that the water-soluble salt of a multivalent metal cation is able to diffuse into the ink-receiving top layer, the method further comprising drying the coating and optionally calendering the coating. Also disclosed is inkjet media made from such method and a method of printing using such inkjet media.
    • 一种制造油墨接收介质,包括以下步骤:提供载体,用多价金属阳离子的盐处理载体,以及在载体的一侧或每侧涂覆至少一个多孔油墨接收顶层,从水性涂料 由非阳离子组分组成的组合物,其中所述非阳离子组分包含粘合剂和平均粒度小于2.5微米的阴离子颗粒,其中所述油墨接收顶层包含总固体重量的至少50%,使得 多价金属阳离子的水溶性盐能够扩散到油墨接收顶层中,所述方法还包括干燥涂层和任选地压延涂层。 还公开了由这种方法制成的喷墨介质和使用这种喷墨介质进行打印的方法。
    • 7. 发明授权
    • Migration imaging, optionally with dyes or pigments to effect bleaching
    • 迁移成像,任选与染料或颜料进行漂白
    • US5614340A
    • 1997-03-25
    • US127632
    • 1993-09-27
    • Douglas E. BugnerWilliam MeyDennis R. Kamp
    • Douglas E. BugnerWilliam MeyDennis R. Kamp
    • G03G17/10G03G13/00G02F1/00G03G5/16G03G9/00
    • G03G17/10
    • A bleachable composition, including an acid photogenerator and a near-infrared radiation-absorbing dye or pigment, is utilized in a method of migration imaging to prevent unwanted absorptions. This composition can be incorporated either in the thermoplastic imaging surface layer of the imaging element, in the marking particles applied to the element, or both. Alternatively, the components of the bleachable composition can be separated with one in the thermoplastic imaging surface layer and the other in the marking particles. After the imaging element is marked and exposed with near-infrared radiation, the bleachable composition caused exposed portions of the imaging element to be bleached. If further bleaching is needed, the element can subsequently be exposed with near-ultraviolet radiation. A migration imaging method, which does not employ the bleachable composition of the present invention, wherein marking particles are magnetically attracted to the imaging element, is also provided.
    • 包含酸性光产生剂和近红外辐射吸收染料或颜料的可漂白组合物用于迁移成像方法以防止不希望的吸收。 该组合物可以并入成像元件的热塑性成像表面层,施加到元件的标记颗粒中,或两者。 或者,可漂白组合物的组分可以在热塑性成像表面层中与另一个在标记颗粒中分离。 在用近红外辐射标记和曝光成像元件之后,可漂白组合物使得成像元件的暴露部分被漂白。 如果需要进一步漂白,则随后可以用近紫外线辐射暴露元件。 还提供了不使用本发明的可漂白组合物的迁移成像方法,其中标记颗粒被磁性地吸引到成像元件。
    • 8. 发明授权
    • Microporous ink-jet recording elements
    • 微孔喷墨记录元件
    • US5605750A
    • 1997-02-25
    • US580698
    • 1995-12-29
    • Charles E. RomanoDouglas E. BugnerWayne T. Ferrar
    • Charles E. RomanoDouglas E. BugnerWayne T. Ferrar
    • B41M5/00B41M5/52
    • B41M5/5218B41M5/506B41M5/5254Y10T428/259Y10T428/31855Y10T428/31971
    • An opaque image-recording element for an ink-jet printer which comprises an opaque substrate having on at least one surface thereof a lower layer of a solvent-absorbing microporous material which comprises:(a) a matrix of substantially water-insoluble thermoplastic organic polymer;(b) finely divided substantially water-insoluble filler particles, of which at least 50 percent by weight are siliceous particles, the filler particles being distributed throughout the matrix and constituting from 40 to 90 percent by weight of the microporous material;(c) a network of interconnecting pores communicating substantially throughout the microporous material, the pores constituting from 35 to 95 percent by volume of the microporous material, andan upper image-forming layer of porous, pseudo-boehmite having an average pore radius of from 10 to 80 .ANG..
    • 一种用于喷墨打印机的不透明图像记录元件,其包括在其至少一个表面上具有溶剂吸收微孔材料的下层的不透明基底,其包括:(a)基本上不溶于水的热塑性有机聚合物 ; (b)细分的基本上不溶于水的填料颗粒,其中至少50重量%是硅质颗粒,填料颗粒分布在整个基质中,占微孔材料的40-90重量%。 (c)基本上贯穿整个微孔材料的相互连通的孔的网络,所述微孔构成微孔材料的体积的35-95%,以及平均孔半径为的多孔,假勃姆石的上图像形成层 10到80 ANGSTROM。
    • 10. 发明授权
    • Glossy inkjet recording medium and methods therefor
    • 光泽喷墨记录介质及其方法
    • US07569255B2
    • 2009-08-04
    • US11855377
    • 2007-09-14
    • Thomas J. DannhauserDouglas E. BugnerSharon R. Girolmo
    • Thomas J. DannhauserDouglas E. BugnerSharon R. Girolmo
    • B05D5/04
    • B41M5/52B41M5/508B41M5/5218B41M5/5254B41M2205/34B41M2205/38
    • A method of manufacturing an ink-receiving medium comprising the steps of providing a support, treating the support with a salt of a multivalent metal cation, and coating upon one or each side of the support at least one porous ink-receiving top layer from an aqueous coating composition consisting of non-cationic components, wherein the non-cationic components comprise a binder and anionic particles of average particle size less than 2.5 microns, wherein the ink-receiving top layer comprises at least 50% of the total solids by weight, such that the water-soluble salt of a multivalent metal cation is able to diffuse into the ink-receiving top layer, the method further comprising drying the coating and optionally calendering the coating. Also disclosed is inkjet media made from such method and a method of printing using such inkjet media.
    • 一种制造油墨接收介质的方法,包括以下步骤:提供支撑体,用多价金属阳离子的盐处理载体,以及在载体的一侧或每侧涂覆至少一个多孔油墨接收顶层, 由非阳离子组分组成的水性涂料组合物,其中所述非阳离子组分包含粘合剂和平均粒径小于2.5微米的阴离子颗粒,其中所述油墨接收顶层包含总固体重量的至少50% 使得多价金属阳离子的水溶性盐能够扩散到油墨接收顶层中,该方法还包括干燥涂层和任选地压延涂层。 还公开了由这种方法制成的喷墨介质和使用这种喷墨介质进行打印的方法。