Abstract: Methods and apparatus for in-line conditioning of swellable print media prior to printing. Treatment with an amphiphilic solvent increases the hydrophilicity of the media surface, thereby accelerating ink penetration and improving image quality in high throughput printing. In addition, ionic components in the treatment fluid can be used to accelerate precipitation of pigment or dye from the ink.

Abstract: Clear hot stamp coating methods of creating durable protective coatings to the printed side of printed transparencies.

Abstract: A system and method for drying a printed medium includes a heated roll and a transport mechanism which moves the printed medium against the heated roll to dry the printed medium.

Abstract: The present invention is drawn to the thermal transfer overcoating of images printed on porous media, and methods of overcoating images printed on porous media. Upon use of the systems and methods of the present invention, a thermally coated print is generated that can comprise a porous media substrate having printed thereon a digitally produced image. The digitally produced image and the porous media substrate is thermally coated by an adhesive protective layer, wherein the adhesive protective layer has a tangent d that is greater than 1 and melt viscosity less than 1×105 Pa.·sec. as applied above its phase transition temperature. Thus, the voids in the porous media substrate can be substantially filled, and further, substantially no tags remain on the print.

Abstract: Clear hot stamp coating methods of creating durable protective coatings to the printed side of printed transparencies.

Abstract: Clear hot stamp coating methods of creating durable protective coatings to the printed side of CD's.

Abstract: A transparent, protective overcoat for a printed medium achieved with a thermal transfer material on a carrier ribbon that is heated and pressed to transfer a segment of thermal transfer material from the carrier ribbon onto the printable surface of a medium.

Abstract: A transparent, protective undercoat for a printed medium achieved with a thermal transfer material on a carrier ribbon that is heated and pressed to transfer a segment of thermal transfer material from the carrierribbon onto the printable surface of a medium.

Abstract: A system and method for drying a printed medium includes a heated roll and a transport mechanism which moves the printed medium against the heated roll to dry the printed medium.

Abstract: Methods and apparatus for in-line conditioning of swellable print media prior to printing. Treatment with an amphiphilic solvent increases the hydrophilicity of the media surface, thereby accelerating ink penetration and improving image quality in high throughput printing. In addition, ionic components in the treatment fluid can be used to accelerate precipitation of pigment or dye from the ink.

Abstract: This present invention is embodied in a low-cost printing system including a printhead and an ink composition that provides photographic-quality resolution. The printhead of the present invention includes a high-density array of drop generators that eject ink drops having a low drop weight and that operate at a high frequency. Further, high-resistance firing resistors are used to provide minimum energy dissipation and the firing resistors are preferably thin-film resistors to ensure that a minimal amount of energy is needed to eject ink drops. The stability of the ink drop volume is maintained by including an overdamped structure within the ink drop generators that allow the ink chambers to fill up with ink slowly. The ink composition of the present invention includes an ink additive that prevents decel from occurring during sustained high-frequency printing bursts.

Abstract: Methods and apparatus for in-line conditioning of swellable print media prior to printing. Treatment with an amphiphilic solvent increases the hydrophilicity of the media surface, thereby accelerating ink penetration and improving image quality in high throughput printing. In addition, ionic components in the treatment fluid can be used to accelerate precipitation of pigment or dye from the ink.

Abstract: Methods and apparatus for in-line conditioning of swellable print media prior to printing. Treatment with an amphiphilic solvent increases the hydrophilicity of the media surface, thereby accelerating ink penetration and improving image quality in high throughput printing. In addition, ionic components in the treatment fluid can be used to accelerate precipitation of pigment or dye from the ink.

Abstract: Clear hot stamp coating methods of creating durable protective coatings to the printed side of printed transparencies.

Abstract: The use of thermoplastic ionomers to form a clear protective overcoating layer over an offset, inkjet or xerographic printed image.

Abstract: Clear hot stamp coating methods of creating durable protective coatings to the printed side of CD's.

Abstract: This present invention is embodied in a low-cost printing system including a printhead and an ink composition that provides photographic-quality resolution. The printhead of the present invention includes a high-density array of drop generators that eject ink drops having a low drop weight and that operate at a high frequency. Further, high-resistance firing resistors are used to provide minimum energy dissipation and the firing resistors are preferably thin-film resistors to ensure that a minimal amount of energy is needed to eject ink drops. The stability of the ink drop volume is maintained by including an overdamped structure within the ink drop generators that allow the ink chambers to fill up with ink slowly. The ink composition of the present invention includes an ink additive that prevents decel from occurring during sustained high-frequency printing bursts.

Abstract: This present invention is embodied in a low-cost printing system including a printhead and an ink composition that provides photographic-quality resolution. The printhead of the present invention includes a high-density array of drop generators that eject ink drops having a low drop weight and that operate at a high frequency. Further, high-resistance firing resistors are used to provide minimum energy dissipation and the firing resistors are preferably thin-film resistors to ensure that a minimal amount of energy is needed to eject ink drops. The stability of the ink drop volume is maintained by including an overdamped structure within the ink drop generators that allow the ink chambers to fill up with ink slowly. The ink composition of the present invention includes an ink additive that prevents decel from occurring during sustained high-frequency printing bursts.

Abstract: In accordance with the invention inks suitable for use in ink-jet printers and method for formulating the same are provided. More particularly, inks comprising the present dyes and buffers exhibit excellent color performance and lightfastness across a range of media. Furthermore, the inks enable good reliability in an environment having a relatively high concentration of precipitating agents. This reliability enables the use of precipitation bleed control mechanisms.

Abstract: A printhead for an inkjet print cartridge capable of generating low drop weight ink drops is produced by reducing the dimensions of the firing chamber. A thinner orifice plate is needed to reliably achieve the lower drop weight ink drops. To overcome the material strength limitations of such a thinner orifice plate, an annealing step in the manufacture of the printhead is employed to modify the material properties of the orifice plate. This improved process improves the print quality of printers and aids in the production handling properties of the orifice plate. Orifice plates having a thickness in the range of 25 .mu.m to 40 .mu.m are being produced.