The present invention relates to a transfer paper, which is: (i) a transfer paper without a coating layer, which comprises a pulp, a filler and an urea phosphate esterified starch, or (ii) a transfer paper having a coating layer, which comprises a base paper and one or more coating layer(s) provided on at least one side of the base paper, wherein an outermost coating layer positioned on the outermost side with respect to the base paper contains at least kaolin, calcium carbonate and a binder, wherein, () the base paper contains an urea phosphate esterified starch, or () the outermost coating layer contains an urea phosphate esterified starch.

According to the present invention, it is possible to provide a transfer paper excellent in image deterioration resistance, color development property, adhesion property and strike-through suppression property.

Disclosed herein is a printable recording media comprising a cellulose based substrate and a composite ink receiving layer that includes a first distinct layer and a second distinct layer. The second distinct layer is applied on top of the first distinct layer and comprises, at least, a polymeric binder, nano-size inorganic pigment particles and an ionene compound. Also disclosed herein is a method for making the printable recording media.

Disclosed herein is a printable recording media comprising a cellulose based substrate and a composite ink receiving layer that includes a first distinct layer and a second distinct layer. The second distinct layer is applied on top of the first distinct layer and comprises, at least, a polymeric binder, nano-size inorganic pigment particles and a thermoplastic material. Also disclosed herein is a method for making the printable recording media.

An aqueous ink transfer process includes coating the surface of an image transfer member (ITM) with a coating composition to a first thickness, the coating composition including a hydrophilic composition and a surfactant, partially drying the coating composition to reduce its thickness and then applying aqueous ink onto the coating composition. The coating composition in the vicinity of the applied ink swells by absorbing water from the ink, and can further exhibit reduced adherence to the ITM. The ink is partially dried and then transferred onto a substrate.

According to an example, a recording medium may include a substrate; a first coating including an inorganic pigment, a first binder, and a fixative agent; and a second coating including inorganic nanoparticles and a second binder; in which the inorganic pigment may be a plate-shaped pigment.

Sublimation-type inkjet textile printing transfer paper includes a base material and a sublimation-type textile printing ink receiving layer formed on the base material, the base material has a 10-second Cobb water absorption of 5 to 20 g/m.sup.2, the sublimation-type textile printing ink receiving layer is made from an ink receiving layer coating material containing a water soluble resin and fine particles, the water soluble resin is at least a CMC, and the CMC is contained in the ink receiving layer coating material in an amount of 100 to 400 parts by mass with respect to 100 parts by mass of the fine particles, the fine particles are at least inorganic fine particles having a tabular crystal structure, the inorganic fine particles have a median diameter d50 of 0.4 to 2.3 m and an aspect ratio of 5 to 30, a coating amount of the ink receiving layer coating material is 3 to 13 g/m.sup.2, and an average of numbers of pinhole appearance is not greater than 5.

A thermal transfer sheet and intermediate transfer medium, and a print forming method, capable of forming a thermal transfer image having good transferability when transferring a transfer layer including a receiving layer onto a transfer receiving article, and capable of improving the durability of a print obtained by transferring the transfer layer including the receiving layer, on which the thermal transfer image has been formed, onto a transfer receiving article. The thermal transfer sheet includes a substrate, primer layer and colorant layer, wherein the primer layer contains one or more selected from the group consisting of particles derived from colloidal inorganic particles, polyvinyl alcohol resins, polyvinyl pyrrolidone resins, and polyurethane resins. The intermediate transfer medium includes another substrate, a protective layer, and a receiving layer, wherein the protective layer and the receiving layer are layered in this order on one surface of the another substrate.

Provided is an ink jet recording medium including a transparent support having a thickness of 10 m to 60 m and a transparent porous layer which is provided on at least one surface of the transparent support, contains inorganic particles, and has a thickness of 1 m to 15 m, in which a tear strength measured based on JIS K 7128-1 (2013) is equal to or lower than 0.5 N. Also provided is a packaging material.

The present disclosure is drawn to image-receiving compositions that can include an aqueous liquid vehicle and solids dispersed in the aqueous liquid vehicle. The solids can include from 60 wt % to 94 wt % pigment filler, from 0.5 wt % to 15 wt % multivalent salt, from 1 wt % to 10 wt % water-soluble polymer, from 2 wt % to 15 wt % latex, and from 2 wt % to 15 wt % synthetic micronized cellulose. The synthetic micronized cellulose can have a bulk density of from 150 grams per liter to 200 grams per liter, and a surface area of 0.1 m.sup.2/g to 10 m.sup.2/g.

An ink fixative solution including a polyvalent metal salt; a wax; a dispersing agent; and water in an amount to provide from about 10% to about 35% solids content in the ink fixative solution is disclosed