Abstract: This invention relates to a magnetographic printing process consisting of creating magnetized recorded dots on a surface of a magnetic recording element (3) by at least one elementary magnetic head (2), spraying ink particles on each of the magnetized recorded dots in order to form images composed of image dots, and increasing the energy supplied to the first magnetized recorded dots compared with the energy supplied to other magnetized dots. This invention also relates to a magnetographic printer using the said process.

Abstract: The present invention relates to a printer with a single printing motor and a single non-contact heating element characterized in that it includes a printing width and a paper path width greater than that of a double web width between 18.5" (46.99 cm) and 20.5" (52.07 cm), and selective control of the writing heads. The writing heads are controlled either in order to use them in a single group to print a centered double-width web, or to use them in two groups of heads to concomitantly print two single-width webs separated by a margin. Both groups of heads or each group of heads can be supplied with one color of ink.

Abstract: The invention relates to a printing process, such as lithographic printing, that requires a printing press and a colorant vehicle. To enable constituting and rapidly removing motifs to be transferred to a printing medium, a hardenable material having good affinity for the colorant vehicle is deposited automatically and directly onto a device that cannot be dismantled or detached from the press, i.e., is part of the press, and that is constituted of a material having an opposite affinity, so as to constitute the motifs to be transferred to the medium. The material constituting the device is such that the material can be removed rapidly when the motifs are to be changed, and is such that new motifs can be constituted there immediately after the removal of those preceding them.

Abstract: A process and apparatus for printing with a press at least one image by transfer of an electrostatic colorant vehicle between an intermediate transfer element and a printing carrier, including the steps of making the intermediate transfer element in the press by magnetically developing zones on a substrate, depositing a magnetic, insulating, and hardenable material on the substrate to constitute the zones, hardening the hardenable material, subjecting the hardenable material to an electrostatic charge in order to lend the zones an affinity for the colorant vehicle, and transferring the colorant vehicle to the printing carrier by directly contacting the intermediate transfer element to the printing carrier.

Abstract: The present invention relates to an agent for magnetographic printers that includes a plurality (k) of elementary magnetic layers, having relatively hard hysteresis cycles with a threshold effect and marked saturation, of which the coercivity and/or thickness of the layers varies as a function of the position of the layer on a soft magnetic substrate.