Exemplary embodiments are disclosed of jigs (broadly, inserts) for use when sublimation printing on socks, production ready sublimation printable socks with preinstalled jigs therein, and related systems and methods. In an exemplary embodiment, a jig includes an upper portion and a lower portion. A first transition or rounded shoulder portion is along a first side of the jig between the upper portion and the lower portion. A second transition or rounded shoulder portion is along a second side of the jig between the upper portion and the lower portion.

The peel-off sheet according to the present disclosure includes a first substrate and a peel-off layer, wherein the peel-off layer contains a vinyl chloride-vinyl acetate copolymer and a crystalline polyester, or the peel-off sheet includes a structural component containing particles, wherein the particle size distribution of the particles contained in the structural component which is determined with a laser diffraction scattering particle size distribution analyzer has a maximum peak at a position of more than 0.2 μm and 5 μm or less.

The peel-off sheet according to the present disclosure includes a first substrate and a peel-off layer, wherein the peel-off layer contains a vinyl chloride-vinyl acetate copolymer and a crystalline polyester, or the peel-off sheet includes a structural component containing particles, wherein the particle size distribution of the particles contained in the structural component which is determined with a laser diffraction scattering particle size distribution analyzer has a maximum peak at a position of more than 0.2 μm and 5 μm or less.

A protective barrier well suited for use in sublimation printing is made primarily from cellulose fibers. The protective barrier, which can comprise an uncoated paper, can be used to prevent sublimation inks from bleeding through a fabric onto the printing equipment. The uncoated paper is recyclable and can enter the paper recycle stream. The uncoated paper can contain first cellulose fibers combined and blended with second cellulose fibers that differ in fiber length and/or in the degree of refining. The uncoated paper is constructed to have a relatively low diffusivity.

A protective barrier well suited for use in sublimation printing is made primarily from cellulose fibers. The protective barrier, which can comprise an uncoated paper, can be used to prevent sublimation inks from bleeding through a fabric onto the printing equipment. The uncoated paper is recyclable and can enter the paper recycle stream. The uncoated paper can contain first cellulose fibers combined and blended with second cellulose fibers that differ in fiber length and/or in the degree of refining. The uncoated paper is constructed to have a relatively low diffusivity.

A thermal transfer sheet is provided, which allows for forming an image favorable to any transfer objects having a poor smoothness or a high smoothness. The thermal transfer sheet according to the present invention includes a substrate, and a transfer layer. The transfer layer includes a release layer, a colorant layer and an adhesive layer. The release layer includes a polyethylene glycol having a number average molecular weight Mn in a range of 8000 or more to 23000 or less, and the colorant layer includes a colorant and a vinyl chloride-vinyl acetate copolymer.

It is the object of the present invention to provide a new polymer coating for low temperature plastics and plastic foams that allows for the application of disperse dyes in a sublimation process that preserves the original properties of the underlying plastic substrate. The composition includes an optically clear synthetic organic polymer base holding two layers, a first reflective layer supported by the low temperature plastic substrate that includes IR radiation reflecting additives, and a second layer supported by the first layer having light scattering particulate additives. The disperse dyes utilized in the invention may include additives to absorb IR radiation provided by an external IR source positioned above the disperse dyes causing the dyes to sublimate and diffuse quickly into the light scattering layer. The combination of these layers allows for diffusion of the disperse dye ink into the light scattering layer while protecting the low temperature plastic below.

The present disclosure relates to a thermal transfer sheet including a first substrate and a first adhesive layer, in which the first adhesive layer is a layer to be transferred from the thermal transfer sheet by heating, and the first adhesive layer contains a crystalline polyester.

The present disclosure relates to a thermal transfer sheet including a first substrate and a first adhesive layer, in which the first adhesive layer is a layer to be transferred from the thermal transfer sheet by heating, and the first adhesive layer contains a crystalline polyester.

Provided are a combination of a thermal transfer sheet and an intermediate transfer medium which is capable of accurately transferring only a transfer layer of the intermediate transfer medium desired to be transferred onto a transfer receiving article in the production of a print, and a thermal transfer sheet which is used in combination with an intermediate transfer medium. Also provided are a method for producing a print, comprising accurately transferring only a transfer layer of an intermediate transfer medium desired to be transferred onto a transfer receiving article, and a thermal transfer printer which is used in this method for producing a print. In the thermal transfer sheet which is used in combination with an intermediate transfer medium, inhibit layer 2 is disposed on substrate 1, and the inhibit layer 2 contains a carnauba wax.