Flying disc toys are personalized with dye-sublimation printing using a heat press and dye-sublimation paper, onto which a design is printed. An assembled flying disc toy is disposed between a pad and a mask, in the heat press. The mask protects the ring of the flying disc toy from melting. The pad urges the fabric cover of the flying disc toy towards the paper and helps prevent crushing of the ring during pressing and the high-definition dye transfer sublimation printing.

The invention relates to a transfer paper (4) for use for transferring a print of ink onto a fabric, said transfer paper comprising: i) a base paper (2); ii) an additive (8) comprising a starch component, and a binding agent; wherein said starch component being a starch selected from the group comprising: unmodified starch or a modified starch or a mixture thereof; and wherein said binding agent being a binding agent selected from the group comprising: an alkyl ketene dimer, a tall oil/fumaric acid copolymer, a styrene/acrylate copolymer and an alkenyl succinic anhydride and a mixture thereof; wherein said base paper (2) comprises an amount of said additive by being impregnated therewith; and wherein said base paper (2) having a water uptake as defined by a Cobb-45 value of 10-100 g/m.sup.2 and a having a Gurley porosity of 10-140 seconds. The present invention furthermore relates to uses of the transfer paper (4).

In one method, a piece of nonwoven PET or PP fabric is formed into a tote bag using a bag forming device. Seams of the tote bag are ultrasonically welded using an ultrasonic bag welding device. The ultrasonic bag welding device includes at least one sonotrode. In another method, BOPP film is received and a full-color graphic is printed on the BOPP film for each tote bag using a printer. The printed BOPP film is received from the printer and nonwoven PP or PET fabric is received from a roll of nonwoven PP or PET fabric using a laminator. The printed BOPP film is laminated to the nonwoven PP or PET fabric. The printed BOPP film laminated to nonwoven PP or PET fabric is received from the laminator and a finished version of each tote bag is produced using an ultrasonic bag welding device.

The invention relates to a transfer paper (4) for use for transferring a print of ink onto a fabric, said transfer paper comprising: i) a base paper (2); ii) an additive (8) comprising a starch component, and a binding agent; wherein said starch component being a starch selected from the group comprising: unmodified starch or a modified starch or a mixture thereof; and wherein said binding agent being a binding agent selected from the group comprising: an alkyl ketene dimer, a tall oil/fumaric acid copolymer, a styrene/acrylate copolymer and an alkenyl succinic anhydride and a mixture thereof; wherein said base paper (2) comprises an amount of said additive by being impregnated therewith; and wherein said base paper (2) having a water uptake as defined by a Cobb-45 value of 10-100 g/m.sup.2 and a having a Gurley porosity of 10-140 seconds. The present invention furthermore relates to uses of the transfer paper (4).

A transfer paper for heat transferring of ink to a textile, the transfer paper includes a base paper and a coating, and has a grease proof characteristics at a kit level of at least 3, such as 3 to 8, and the transfer paper having a dimensional stability of less than 1% over a period of 10 seconds.

In one method, a piece of nonwoven PET or PP fabric is formed into a tote bag using a bag forming device. Seams of the tote bag are ultrasonically welded using an ultrasonic bag welding device. The ultrasonic bag welding device includes at least one sonotrode. In another method, BOPP film is received and a full-color graphic is printed on the BOPP film for each tote bag using a printer. The printed BOPP film is received from the printer and nonwoven PP or PET fabric is received from a roll of nonwoven PP or PET fabric using a laminator. The printed BOPP film is laminated to the nonwoven PP or PET fabric. The printed BOPP film laminated to nonwoven PP or PET fabric is received from the laminator and a finished version of each tote bag is produced using an ultrasonic bag welding device.

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.

Disclosed is a method for producing an embroidery pattern through stitching to a substrate, particularly a method for producing a colored embroidery pattern having color disposition corresponding to a complex shape or stitches, simply and at low cost. The method includes: forming an embroidery base pattern to a substrate by use of single-color embroidery thread; printing a transfer image on an intermediate recording medium having a total light transmittance Tt of 60% or higher by use of a sublimable disperse dye, the transfer image being used for dyeing the embroidery thread of the embroidery base pattern; superposing the transfer image on the embroidery base pattern, while the intermediate recording medium is positioned from the backside of a printed surface of the recording medium; and heat-pressing the intermediate recording medium from the backside of the recording medium, to thereby dye the embroidery thread of the embroidery base pattern.

An example of a dye sublimation inkjet ink includes a disperse dye colorant dispersion; a water soluble polymeric ultraviolet (UV) absorber; a co-solvent; and a balance of water. The water soluble polymeric UV absorber of the dye sublimation inkjet ink has absorption at a radiation wavelength ranging from about 360 nm to about 410 nm.

The problem of this invention is to provide a transfer paper with good close contact to fiber materials and good color density of patterns formed on the fiber materials, good peeling, and no significant difference in texture between patterned and non-patterned areas of the fiber materials.

The present invention provides a transfer paper having a base material with one or more non-aqueous resin laminate layer(s) on one side of a base paper, and one or more coating layer(s) on the laminate layer(s) of the base material, wherein an outermost coating layer, which is positioned outermost in the coating layer(s) with respect to the base material, contains a white pigment and a binder, the white pigment contains at least an amorphous silica, and the binder contains at least five types consisting of a water-soluble polyester resin, a carboxylic acid-modified polyvinyl alcohol resin, an acrylic resin, a hydroxypropyl starch and an alginate.