Embodiments of the invention relate to a method of indirect printing with an aqueous ink. In some embodiments, an intermediate transfer member (ITM) comprising a silicone-based release layer surface is employed. For example, the release layer surface satisfies at least one of the following properties: (i) a receding contact angle of a drop of distilled water deposited on the silicone-based release layer surface is at most 60°; and (ii) a 10-second dynamic contact angle (DCA) of a drop of distilled water deposited on the silicone-based release layer surface is at most 108°. Related apparatus, systems and treatment formulations are disclosed herein.

Embodiments of the invention relate to a method of indirect printing with an aqueous ink. In some embodiments, an intermediate transfer member (ITM) comprising a silicone-based release layer surface is employed. For example, the release layer surface satisfies at least one of the following properties: (i) a receding contact angle of a drop of distilled water deposited on the silicone-based release layer surface is at most 60°; and (ii) a 10-second dynamic contact angle (DCA) of a drop of distilled water deposited on the silicone-based release layer surface is at most 108°. Related apparatus, systems and treatment formulations are disclosed herein.

The present invention relates to a carrier film for transferring a microelement, wherein, when a microelement is pressurized, a uniform pressurizing force is provided to the entire microelement, and a damage to the microelement can be prevented. The carrier film for transferring a microelement comprises: a load control layer having a first elastic modulus and having a space formed in a part of the interior thereof; and an adhesive layer having a second elastic modulus that is smaller than the first elastic modulus, the adhesive layer being provided on the upper portion of the load control layer and configured such that a microelement supposed to be transferred to a target substrate is attached thereto. The load control layer has a first zero-rigidity area that maintains a first stress in a first deformation range from a first strain to a second strain.

The invention relates to a transfer paper for transferring images onto substrates, comprising a carrier having a wax coating; a layer (A) arranged thereon, containing a wax emulsion, a binding agent, an inorganic crystalline substance, and a pigment; a layer (B) arranged on layer (A), containing an organic polymer, an inorganic crystalline substance, a fixing agent, a copolymer and a pigment; and a layer (C) arranged on layer (B), containing an organic polymer, a binding agent, an inorganic crystalline substance, a wax emulsion, a copolymer and a pigment. The invention also relates to a method for transferring images onto substrates using the transfer paper.

Methods for producing, from hydrophilic carbon black particles and at least one curable hydrophobic silicone pre-polymer, elastomeric compositions comprising dispersed carbon black particles, as well as their corresponding cured products. Once the curing process has taken place, such compositions can be used for the preparation of numerous articles of wide industrial applicability.

Methods for producing, from hydrophilic carbon black particles and at least one curable hydrophobic silicone pre-polymer, elastomeric compositions comprising dispersed carbon black particles, as well as their corresponding cured products. Once the curing process has taken place, such compositions can be used for the preparation of numerous articles of wide industrial applicability.

The present disclosure is drawn inkjet inks, which can include an aqueous ink vehicle and a pigment particle having a block copolymer attached to a surface of the pigment particle. The block copolymer can be linked to the surface through a nitrogen atom-containing coupling group bonded to the surface through the nitrogen atom. The block copolymer can include a steric stabilizing block formed by polymerizing a monomer having a sterically bulky group, and an ionic stabilizing block formed by polymerizing a monomer having an acidic group or a basic group.

An apparatus and method for embossing a substrate are disclosed. For example, the apparatus includes an embossing platform, a printhead to dispense ink on the embossing platform in a desired raised pattern on the embossing platform, a press to apply a load against a substrate placed on the desired raised pattern and the embossing platform to emboss the desired raised pattern onto the substrate, and an ink removal device to remove the ink that is dispensed on the embossing platform in the desired raised pattern.

A transfer method utilizing partially cured radiation sensitive ink to transfer a onto a contoured or uneven surface area of a guitar body by a transfer method. Specifically, a transfer material has a surface that is printed with a radiation sensitive ink. The desired design may be printed to the surface and partially cured by exposing the radiation sensitive ink to appropriate radiation. Thereafter, the surface of the transfer material may be brought into facing engagement with the contoured surface of the guitar body such that the printed and partially cured design is disposed between the contoured surface and the transfer material. The design may be transferred to the contoured surface by, for example, application of pressure to an opposite side of the transfer material using a burnisher or the like. Once transferred, the design may be fully cured by exposing the now transferred radiation sensitive ink to appropriate radiation.

A method of printing on a polymeric article includes applying a decoration-forming deposit on a transfer blanket. The method further includes transferring the decoration-forming deposit from the transfer unit to the polymeric article to provide a decoration on the polymeric article.