A printable recording media containing a substrate; a pre-coat layer including more than about 60 wt % of one or more inorganic pigments by total dry weight of the pre-coat layer; a topcoating layer including more than about 60 wt % of one or more inorganic pigments; up to 25 wt % of binders and up to about 5 wt % of a combination of natural and synthetic rheology modifiers, by total weight of the top-coating layer, wherein the ratio of the amount of natural rheology modifiers to the amount of synthetic rheology modifiers is from about 90:10 to about 50:50. Also disclosed herein is a method for making such printable recording media.

The present disclosure provides a print medium, a printed article, and a method of printing. The print medium can include a thin paper substrate having weight ranging from 40 GSM to 150 GSM, and a pre-treatment coating applied to the thin paper substrate at a weight ranging from 0.3 GSM to 15 GSM. The pre-treatment coating can include from 10 wt % to 80 wt % of a fixer, from 3 wt % to 50 wt % of a latex polymer, and from 5 wt % to 50 wt % of a water holding agent.

The present invention relates to inkjet printable twist and/or fold wrap film for packaging applications, to inkjet printed twist and/or fold wrap film for packaging applications, to packaging including said inkjet printable or inkjet printed twist and/or fold wrap film, the use of the inkjet printable or inkjet printed twist and/or fold wrap film for as well as to the method of making a filled packaging.

An ink composition able to yield a printed adherend having high weathering resistance; wherein, this ink composition is an active energy ray curing type ink composition that is discharged using an inkjet method. The ink composition contains a polymerizable compound, an ultraviolet radiation absorber and an antioxidant. The ultraviolet radiation absorber has a maximum absorption wavelength within the range 315-400 nm. A medium containing the ultraviolet radiation absorber at a concentration of 20 ppm has an absorbance area Ab of 25.0 or more at wavelengths within the range of 315-400 nm.

The present invention is directed to an unprinted inkjet-printable fillable pouch made of an unprinted inkjet-printable film including (a) a multilayer polymer film including a base layer (a1) and a sealing layer (a2) which is the inner layer of the pouch and (b) at least one ink-receiving layer as the outer layer deposited on the multilayer polymer film (a) from an aqueous coating composition including (b1) a polymeric binder, (b2) fine inorganic particles, and (b3) coarse inorganic and/or organic particles. Also provided is a method for producing the unprinted pouches on a pouch making machine as well as a method for printing the pouches, preferably in a single pass inkjet printing process. The printed pouch is ideal to be filled with food, pet food, beverages, pharmaceuticals and/or personal care products.

A method is provided for manufacturing a paper or a thermoplastic foil printable with an inkjet printer for use as a decor paper or a decor foil in a laminate panel. The method may involve providing a paper layer or a thermoplastic foil. At least one side of the paper layer or the thermoplastic foil may be coated with an inkjet receiver coating that includes at least a pigment. The pigment may include aluminum silicates or combinations thereof.

The present invention is directed to an unprinted electrophotographically printable fillable pouch made of an unprinted electrophotographically printable film including (a) a multilayer polymer film including a base layer (a1) and a sealing layer (a2) which is the inner layer of the pouch and (b) at least one toner-receiving layer as the outer layer deposited on the multilayer polymer film (a) from an aqueous coating composition including (b1) a polymeric binder, (b2) fine inorganic particles, and (b3) coarse inorganic and/or organic particles. Also provided is a method for producing the unprinted pouches on a pouch making machine as well as a method for printing the pouches in an electrophotographic printing process. The printed pouch is ideal to be filled with food, pet food, beverages, pharmaceuticals and/or personal care product.

A thermal receiver for image production. The thermal receiver maintains advantageous properties such as surface tension while being made with chemicals with fewer health, safety, and environmental concerns than previous thermal receivers. This includes the elimination of hazardous catalysts and PFAS/fluorinated surfactants from the composition through the use of silicone compatibilizers and trisiloxane surfactants. The composition has low surface tension within a short time frame after being applied to a surface.