A colored dispersion that contains (A) C.I. Disperse Orange 25, (B) a specific dye such as C.I. Disperse Orange 49, 62, 71, 73, or 148, and water. When the total (A) C.I. Disperse Orange 25 and (B) specific dye content of the colored dispersion is 100 parts by mass, the (B) specific dye content of the colored dispersion is less than 20 parts by mass. A recording medium to which the colored dispersion has been adhered and a textile printing method for hydrophobic fibers that uses the colored dispersion.

A composite image heat transfer is disclosed for use on specific merchandising articles, sports jerseys, or other apparel for a specific sport. A scannable mark would be embedded in a heat transfer positioned on a sports jersey, such as a jersey number or a club crest. The scannable mark would be scanned by a user to provide stats, personal information, or other information about the corresponding sports team/club and/or individual athlete. The user can also register the scannable mark and follow the sports team/club and/or athlete on social media. Thus, the composite image heat transfer with embedded scannable mark would link each jersey number with information related to the corresponding player/athlete, and each club crest would be linked to information related to the corresponding club/team. This would enable a strong interaction through social media and other web tools between athletes and/or clubs and fans.

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.

A composite image heat transfer is disclosed for use on specific merchandising articles, sports jerseys, or other apparel for a specific sport. A scannable mark would be embedded in a heat transfer positioned on a sports jersey, such as a jersey number or a club crest. The scannable mark would be scanned by a user to provide stats, personal information, or other information about the corresponding sports team/club and/or individual athlete. The user can also register the scannable mark and follow the sports team/club and/or athlete on social media. Thus, the composite image heat transfer with embedded scannable mark would link each jersey number with information related to the corresponding player/athlete, and each club crest would be linked to information related to the corresponding club/team. This would enable a strong interaction through social media and other web tools between athletes and/or clubs and fans.

An ink composition for inkjet textile printing containing a urethane resin, a dispersant and a disperse dye, in which the content of the urethane resin is greater than 0.035 mass % but less than 6 mass %, and a method for textile printing of hydrophobic fibers using the ink composition.

The present invention refers to a method for manufacturing a functional textile product with microbicidal activity, which can preferably have a text or image in color or black and white printed on it, which is aimed at solving the problem of impregnating and fixing a microbicidal solution in simple steps and without the use of fixing or dispersing chemicals, and in another aspect that the textile fabric may also have a predetermined digital image on the surface thereof, where the image has definition, contrast and durability of the print without neglecting or affecting the microbicidal activity on the textile substrate. Preferably, without intending to limit the scope of the invention, the functional textile woven material may be bed linens such as covers, duvets and the like, clothing, articles for hospitals or the health sector, such as face covers, the industrial sector, food or any other sector that requires contagion prevention devices.

Systems, methods, storage media, and computing platforms for on demand garment manufacture. An order controller can receive an order specification to manufacture a garment. A selector can select the fabric based on the order specification. A pre-treatment can pretreat the fabric with an aqueous solution. A dryer can dry the fabric. A loader can align fabric with an indicator. A sensor coupled to the loader can obtain an alignment of the fabric on the loader. A heat press can apply a design on the fabric. A printer can print a second design on the fabric in the loader based on the order specification. A quality controller can scan the design. The quality controller can generate, based on scanning the design, a quality comparison between the design and predetermined parameters. The quality controller can route, based on the quality comparison, the fabric to a shipper or an order controller.

An appliqué of the invention comprises a disposable carrier film onto which a release layer and PU inks are printed using layering techniques. The ink layers can be multicoloured and each colour is applied sequentially using a conventional screen-printing method. A back-up, a lacquer layer, and an adhesive layer are printed in sequence over the ink layers. The ink includes reflective particles providing the optical effect of a 3-dimensional appliqué. The artwork is created by overlapping design layers to controlled specification sequences. The ink, because of the additives, creates a desired colour tone, and this may be enhanced by layering of the ink in an overlapping region. Thus, there are three main regions, namely a central region with reflective ink, a “shoulder” region with overlapping matt and reflective inks and an outer region with only matt ink.

Use of a laser-activatable component in a composition and/or use of a composition that includes the laser-activatable component, during laser transfer printing, characterized in that the laser-activatable component is activated by laser irradiation during use in such a way that the viscosity and/or the elasticity and/or the tack of the composition increase(s) due to an increase in temperature of the composition, wherein the laser-activatable component is a polymer made up of the groups comprising polyethylene glycol, polyvinylpyrrolidone, polyvinyl acetate, polyvinyl alcohol, polyacrylate, polyester, or copolymers of these polymers or blends.

A printing device (100) is provided with: a conveyance device (3) that performs a conveyance operation in which a feeding operation to feed a recording medium (7) and suspension of the feeding operation are repeated; a plate device (2); and an ink ejection device (1). The ink ejection device (1) performs a scan to move a head (8) when the feeding operation is suspended. The conveyance device (3) performs the feeding operation once each time one scan is completed, and is configured to change the amount by which the recording medium (7) is fed by one feeding operation.