A dampening fluid useful in offset ink printing applications contains water and a surfactant whose structure can be altered. The alteration in structure aids in reducing accumulation of the surfactant on the surface of an imaging member. The surfactant can be decomposed, switched between cis-trans states, or polymerizable with ink that is subsequently placed on the surface.

A thermal printhead (TPH) is positioned to selectively preheat a blanket surface such as an arbitrarily reimageable surface of a variable lithography system. The blanket then immediately passes through a chamber containing dampening solution vapor. The vapor condenses only where the blanket has not been heated, thus developing an image ready for inking.

A thermal printhead (TPH) is positioned to selectively preheat a blanket surface such as an arbitrarily reimageable surface of a variable lithography system. The blanket then immediately passes through a chamber containing dampening solution vapor. The vapor condenses only where the blanket has not been heated, thus developing an image ready for inking.

A viscosity control unit provides improved and efficient residual ink removal from an imaging member following the transfer of the majority of the ink from the imaging member to a substrate, and prior to the application of a subsequent ink application to the imaging member. The viscosity control unit hardens the residual ink on the imaging member to produce a hardened residual ink. By increasing the viscosity of the residual ink before it is removed by a cleaning station, the removal of the residual ink from the imaging member becomes easier and more efficient.

A viscosity control unit provides improved and efficient residual ink removal from an imaging member following the transfer of the majority of the ink from the imaging member to a substrate, and prior to the application of a subsequent ink application to the imaging member. The viscosity control unit hardens the residual ink on the imaging member to produce a hardened residual ink. By increasing the viscosity of the residual ink before it is removed by a cleaning station, the removal of the residual ink from the imaging member becomes easier and more efficient.

A method for operating a printing device and an image generation kit are disclosed. The image generation kit is adapted to controllably eject individual drops of a gating agent, and is operating the image generation kit in synchronism with a principal substance application apparatus to deposit the drops of the gating agent on a substrate and to transfer a principal substance to the substrate. The drops of the gating agent on the substrate define image and non-image areas of the substrate, the image and non-image areas of the substrate are undefined until the drops of the gating agent are deposited thereon, and the substrate with the principal substance transferred to the image areas is an end product of the printing device.

A method for operating a printing device and an image generation kit are disclosed. The image generation kit is adapted to controllably eject individual drops of a gating agent, and is operating the image generation kit in synchronism with a principal substance application apparatus to deposit the drops of the gating agent on a substrate and to transfer a principal substance to the substrate. The drops of the gating agent on the substrate define image and non-image areas of the substrate, the image and non-image areas of the substrate are undefined until the drops of the gating agent are deposited thereon, and the substrate with the principal substance transferred to the image areas is an end product of the printing device.

A system and method are provided for depositing a uniform layer of a dampening solution using a vapor deposition/condensation process or technique on a reimageable surface in an image forming device using a proposed variable data digital lithographic image forming architecture that transfers ink at an efficiency rate in excess of 95 percent. A reimageable surface is configured of a low surface energy surface component that directly accepts a vaporized dampening solution having a lower surface energy than the surface energy of the reimageable surface. A uniformity in the layer of condensed dampening solution on the reimageable surface is a product of the relative difference in the low surface energy of the reimageable surface and the lower surface energy of the dampening solution.

A system and method are provided for depositing a uniform layer of a dampening solution using a vapor deposition/condensation process or technique on a reimageable surface in an image forming device using a proposed variable data digital lithographic image forming architecture that transfers ink at an efficiency rate in excess of 95 percent. A reimageable surface is configured of a low surface energy surface component that directly accepts a vaporized dampening solution having a lower surface energy than the surface energy of the reimageable surface. A uniformity in the layer of condensed dampening solution on the reimageable surface is a product of the relative difference in the low surface energy of the reimageable surface and the lower surface energy of the dampening solution.

A white ink composition is disclosed. The white ink composition comprises an ink vehicle comprising at least one compound chosen from acrylate monomers, methacrylate monomers, acrylate oligomers and methacrylate oligomers; at least one polyester resin that exhibits a crystalline structure at temperatures at or below a recrystallization temperature and that has a melting temperature below 120 C.; at least one photoinitiator; a filler comprising at least one component chosen from clay fillers and silica fillers; and at least one white colorant.