A printing rubber blanket includes base layer, a surface rubber layer provided on one surface of the base layer and metal layer provided on the other surface of the base layer on the opposite side of the surface rubber layer. The metal layer includes a passivation layer on at least a surface thereof on the opposite side of the base layer.

Provided is a printing blanket that is unlikely to cause portions uncoated with ink even when the printing-applied surface has protrusions. The printing blanket according to an embodiment of the present invention includes a printing surface to be pressed against a printing plate on which the ink is placed and against the surface on which printing is applied and that is a target of printing. The printing blanket further includes a substrate, an inner coating layer covering at least part of the surface of the substrate, and an outer coating layer covering at least part of the surface of the inner coating layer that is on the side opposite the substrate. The inner coating layer has a smaller Asker C hardness than the substrate, and the outer coating layer has the printing surface on the side opposite the inner coating layer.

Provided herein is an imaging blanket for variable data lithography comprising (i) a substrate and (ii) a thermally-conductive composition disposed on the substrate comprising a silicone elastomer and a thermally-conductive filler selected from metal oxides, wherein the thermally-conductive composition has a thermal conductivity ranging from about 0.6 W/m.sup.2 to about 1.6 W/m.sup.2. Further provided herein a method of making the imaging blanket, as well as a printing system comprising the imaging blanket, wherein the imaging blanket has improved thermal conductivity.

This invention discloses digitally printed plate, the manufacturing method and applications thereof, is characterized in that the digitally printed plate is of respectively from top to bottom surface lacquer layer, texture layer, second wear layer, first wear layer, pattern layer, bottom lacquer layer, base layer. The digitally printed plated has various patterns, with sufficient materials, printing unrepeatable stereoscopic pattern is possible, so it can satisfy customers' personalized customization requirements, without wasting abundant time or cost, and with process reduced, production efficiency is improved, enabling order manufacturing order insert and sample making at any time.

The invention relates to a multilayer sheet material 10 in the form of a printing blanket or of a printing plate, in particular for the printing of conical or cylindrical vessels made of, for example, plastic, styropore, paperboard, metal, etc., with a multiple-ply printing layer 1,2 made of at least one polymeric material and at least one other layer 3, 4, where the individual layers form, with one another, an adhesive bond that is not amenable to non-destructive separation.

The upper ply 1 of the printing layer, which during the printing procedure faces toward the object to be printed, comprises from 40 to 80 phr of butadiene rubber (BR) and from 20 to 60 phr of butyl rubber (IIR), and the lower ply 2, which during the printing procedure faces away from the object to be printed, comprises from 80 to 100 phr of butyl rubber (IIR).

A structural underblanket unit (10) for blanket cylinders (100) of printing machines, comprising a first layer (11) made of rubber, a second layer (12) made of polyester and a third layer (13) made of fabric. The layers (11, 12, 13) are solidly bonded to one another so as to define a multilayer structural unit (10) having an overall transversal thickness (S) corresponding to the sum of the transversal thicknesses (S11, S12, S13) of said layers, the order of bonding of said layers being any whatsoever. A process for adjusting a distance of a printing blanket (101) from a wall (102) of a blanket cylinder of a printing machine.

The invention refers to a structure consisting of a set of pre-assembled elements on a polyester base used for the flexographic printing of corrugated cardboard, which is advantageously distinguished by the inclusion of adhesive foam directly between the printing plant and the polyester of the base to which the printing plate is fixed, which, among other advantages, improves the printed quality and reduces the pressure required for the cardboard to be covered by the ink with respect to conventional systems used until now for the same purpose.

A nanowire device of the present description may be produced with the incorporation of at least one hardmask during the fabrication of at least one nanowire transistor in order to assist in protecting an uppermost channel nanowire from damage that may result from fabrication processes, such as those used in a replacement metal gate process and/or the nanowire release process. The use of at least one hardmask may result in a substantially damage free uppermost channel nanowire in a multi-stacked nanowire transistor, which may improve the uniformity of the channel nanowires and the reliability of the overall multi-stacked nanowire transistor.

A rubber blanket for a printing cylinder of a printing machine, comprising at least an upper printing layer made of compact elastomeric material, at least a lower layer having a contact surface in contact with the printing cylinder, and at least one fabric reinforcement layer interposed between the upper layer and the lower layer, the lower layer being made of expanded elastomeric material.

A nanowire device of the present description may be produced with the incorporation of at least one hardmask during the fabrication of at least one nanowire transistor in order to assist in protecting an uppermost channel nanowire from damage that may result from fabrication processes, such as those used in a replacement metal gate process and/or the nanowire release process. The use of at least one hardmask may result in a substantially damage free uppermost channel nanowire in a multi-stacked nanowire transistor, which may improve the uniformity of the channel nanowires and the reliability of the overall multi-stacked nanowire transistor.