Provided is an image transfer material, comprising a support, optionally at least one barrier layer, a melt transfer layer, and an image receiving layer. Also provided is a process for preparing the image transfer material. Further provided is a heat transfer process using the disclosed material. In the heat transfer process, after imaging, the image receiving layer and melt transfer layer are peeled away from the optionally barrier-coated support material and placed, preferably image side up, on top of a receptor element. A non-stick sheet is then optionally placed over the imaged peeled material and heat is applied to the top of the optional non stick sheet. The melt transfer layer then melts and adheres the image to the receptor element. A composition comprising: at least one self-crosslinking polymer, and at least one dye retention aid.

A substrate for an inkjet printer is described herein. The substrate comprises a material selected to provide high contrast reflected light and having a print material receiving surface with a neutral response to the print material.

A printable medium with a supporting base substrate that has, on its image side, a substrate sizing layer and an image receiving layer, and having, on its back-side a fabric backing and barrel layer with flame retardancy. Also disclosed are the method for making such printable medium and the method for producing printed images.

A printable substrate, along with methods of its formation, is generally provided. The printable coating can include a base sheet defining a first surface and a second surface and a printable coating on the first surface of the base sheet. The base sheet can be constructed from a cellulosic nonwoven web and a saturant. The printable coating can include a plurality of inorganic microparticles and a crosslinked material, where the crosslinked material is formed from a crosslinkable polymeric binder and a crosslinking agent. An image can be formed on the printable substrate, such as by printing an ink composition onto the printable substrate (e.g., onto the printable coating).

Printing layers and films for printing are disclosed. Methods for preparing such films also are disclosed.

A printable recording media including a supporting base substrate having, on both supporting sides, pre-coating layers containing inorganic pigments and polymeric binders, and having, at least, one top ink-receiving layer, that includes inorganic pigments and water-dispersible polymeric binders having a glass transition temperature within the range of about 0 C. to about 35 C., over the pre-coating layer. Also described herein is a method for making the printable recording media, a method for forming printed articles and the obtained printed articles.

A printable recording media including a supporting base substrate having, on its image side, a pre-coating layer that contains inorganic pigments and polymeric binders, and a top ink-receiving layer that includes inorganic pigments, polymeric binders and non-film forming polymers; and, having a polymer barrier layer on its backside. Also described herein is a method for making the printable recording media, a method for forming printed articles, and the obtained printed articles.

A printable recording media including a composite base substrate that contains, at least, two constituent material layers that are laminated together with a flame resistant adhesion layer containing an adhesive compound and up to 50% of a flame retardant agent by total weight of the flame resistant adhesion layer, wherein, at least, one of the constituent material layer is a fiber layer; and an image receiving layer that is coated on one side of the composite supporting substrate. Also disclosed are the method for making such printable recording media and the method for producing printed images on such printable recording media.

A multilayer laminate such as a label assembly having high opacity and desirable appearance characteristics is described. The laminate includes a facestock layer, an adhesive layer, and a liner layer. The facestock layer includes a print-receiving top coat layer that includes a combination of titanium dioxide and one or more optical brighteners. The combination of these materials avoids build up of static charges upon laser printing on the facestock.

An object of the present invention is to provide an ink jet recording medium which exhibits excellent adhesiveness with respect to an ink and has excellent scratch resistance and in which density unevenness at the time of printing is suppressed, a method for manufacturing the ink jet recording medium, a printed material using the ink jet recording medium, a method for manufacturing the printed material, ornamental glass, and a roll.

An ink jet recording medium of the present invention has a support and an ink receiving layer on at least one surface of the support, in which the ink receiving layer is a cured layer of a composition containing a radical polymerizable compound, a polymerization initiator, and a compound represented by Formula C-1.

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