An ink-jet printing apparatus and an ink-jet printing method are provided which can improve a quick-drying performance of an ink containing an ultraviolet curing agent while at the same time preventing harm done by ink mist. When the printing head ejects ink containing the ultraviolet curing agent from the ink ejection portions as it moves, the ultraviolet radiation unit provided in front of the printing head with respect to the printing head moving direction radiates the ultraviolet light onto the ink adhering to the printing medium.

In a color ink jet recording apparatus using ultraviolet cure ink, the time required for printing is shortened and color of the ink can be clearly represented without upsizing the ink jet recording apparatus. The color ink jet printer includes a carriage that can move in a main scanning direction while guided by X-axis guide bars, Y, M, C and K heads aligned in a sub scanning direction on the carriage, and two ultraviolet lamps that are disposed on both sides sandwiching the heads therebetween on the carriage and each have a sufficient length. With this structure, a printed portion of a recording medium formed by each of the Y, M, C and K heads is irradiated with ultraviolet light by the UV lamps at least once after every printing in the main scanning direction.

A thermally image record material such as a secure document is taught which is susceptible to rapid and bulk destruction of confidential or sensitive information by microwave or high energy absorption. The thermally responsive record material comprises a heat sensitive composition applied onto a substrate having provided thereon in proximity, to the heat sensitive composition as a subcoat or undercoat or back side coating, a layer of particles of an energy receiver material such as a microwave susceptor. Sensitive information imprinted on the record material can be readily destroyed by microwave heating.

A method for making a structure includes depositing a solution upon a surface and irradiating the solution with microwaves to crystallize solute of the solution on the surface.

A method and apparatus for printing a product, article or other object at a printing station and for enhancing the application of UV light to UV photo initiators in a UV curable ink being applied to a product, article or other object at the printing station, comprising the steps for: printing a UV-curable ink with a printing head of a printer on a substrate, product, article or other object at a printing station; providing a primary light source of UV light preferably comprising at least one set of UV-LED arrays of UV-LED chips adjacent the printing head; and partially curing the ink dots by emitting light on the ink dots from the primary light source to set and partially polymerize, coalesce, coagulate and/or gel the ink dots so as to substantially inhibit the growth of the ink dots and prevent, running or smudging of the ink dots. The curing of the ink dots are completed by emitting light on the ink dots from a secondary light source, such as from one or more fluorescent lamps.