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).

Described herein is a process for heat transfer printing, the process comprising: electrostatically printing a transparent release composition onto a transfer material to form a release layer disposed on the transfer material; electrostatically printing an electrostatic ink composition on the release layer to form an image layer disposed on the release layer; contacting a thermoplastic film with the image layer; contacting the thermoplastic film with a target substrate under conditions such that the thermoplastic film adheres to the target substrate and the release layer is softened; and separating the target substrate and the transfer material such that the thermoplastic film, image layer and release layer are transferred to the target substrate. A heat transferrable printed image is also described herein.

The present invention relates to heat transfers that include silicone based heat transfer inks and digitally printed toner images, particularly for use on fabrics, apparel items, garments and accessories. The present subject matter is especially suitable for use in heat-transferable labeling or creating embellishments on polyester fabrics and garments.

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.

A coloring product for dyeing or refreshing dyes in textile materials is disclosed. The coloring product includes a flat carrier material, at least one coating applied to the carrier material, and at least one dye in the coating. The at least one dye is present in a quantity ranging from 45% by weight 98% by weight in relation to the overall quantity of the coating. The flat carrier material is a nonwoven. The coloring product may be included in a washing machine that has textile materials in an aqueous solution at a temperature of at least 20° C. over a period of at least 10 minutes.

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.

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.

Provided in one example herein is a method of printing. The method includes disposing onto a transfer paper an ink composition to form thereon an image, the ink composition including pigments and latex particulates. The method includes transferring the image from the imaged transfer paper onto a substrate comprising fabric by a lamination process. The lamination process includes: laminating together the substrate, the imaged transfer paper, and a release paper, whereby the image is transferred from the transfer paper onto the substrate.

Described herein is a process for heat transfer printing, the process comprising: electrostatically printing a transparent release composition onto a transfer material to form a release layer disposed on the transfer material; electrostatically printing an electrostatic ink composition on the release layer to form an image layer disposed on the release layer; contacting a thermoplastic film with the image layer; contacting the thermoplastic film with a target substrate under conditions such that the thermoplastic film adheres to the target substrate and the release layer is softened; and separating the target substrate and the transfer material such that the thermoplastic film, image layer and release layer are transferred to the target substrate. A heat transferrable printed image is also

In example implementations, a method to convert metal precursors in textiles is provided. The method includes applying a liquid metal precursor to a textile. Then, energy (e.g., heat and/or pressure) is applied to the textile. The metal precursor is converted into metal nanoparticles in the textile by sustaining application of the energy.