A method for transferring an image to a fabric, including providing a recording medium; coating the recording medium with a specialty coating including a silicone release agent, a silicone emulsion catalyst, and a binder; printing an image on the recording medium including the specialty coating, the image being printed using a sublimation ink; adhering a powder adhesive to the image printed on the recording medium while the image is in a wet state; transferring the recording medium including powder adhesive and image to the fabric; and hot-pressing the powder adhesive and image to the fabric to adhere the powder adhesive and image to the fabric.

A method for transferring an image to a fabric, including providing a recording medium; coating the recording medium with a specialty coating including a silicone release agent, a silicone emulsion catalyst, and a binder; printing an image on the recording medium including the specialty coating, the image being printed using a sublimation ink; adhering a powder adhesive to the image printed on the recording medium while the image is in a wet state; transferring the recording medium including powder adhesive and image to the fabric; and hot-pressing the powder adhesive and image to the fabric to adhere the powder adhesive and image to the fabric.

The invention relates to a wet chemical method for the surface modification of products made of low-energy synthetic fibers, to the products produced by the method and to the use of the products produced by the method. The material surface is permanently provided with functional groups by contact with an aqueous polyvinylalcohol solution containing silanol(ate) groups. Depending upon the design, the materials have a high water consumption or transmission capacity or exhibit a capillary activity. The range of uses for surface-modified materials is extended by the possibility of reacting the functional groups, inter alia, with biologically active components.

The invention relates to a transfer material for dye sublimation processes, comprising a base paper, which is coated on one side with a color-receiving layer, wherein the base paper contains at least 1.5% by weight, based on the mass of the pulp, of a polymer dispersion selected from the group consisting of polyacrylates, polyesters, polyolefins or mixtures thereof. The invention further relates to a process for producing a transfer material according to the invention, comprising the steps of: (a) producing a base paper on a paper machine, wherein at least 1.5% by weight, based on the mass of the pulp, of a polymer dispersion selected from the group consisting of polyacrylates, polyesters, polyolefins or mixtures thereof are added to the pulp suspension during production of the base paper; (b) drying and smoothing the base paper; (c) applying the color-receiving layer to a surface of the base paper; and (d) drying the transfer material obtained in step (c). The invention further relates to a process for transferring an image onto a receiving material by sublimation, wherein a transfer material according to the invention is printed with an image by way of the inkjet printing process, and the image is transferred onto a receiving material by sublimation.

A method for transferring an image to a fabric, including providing a recording medium; coating the recording medium with a specialty coating including a silicone release agent, a silicone emulsion catalyst, and a binder; printing an image on the recording medium including the specialty coating, the image being printed using a sublimation ink; adhering a powder adhesive to the image printed on the recording medium while the image is in a wet state; transferring the recording medium including powder adhesive and image to the fabric; and hot-pressing the powder adhesive and image to the fabric to adhere the powder adhesive and image to the fabric.

A method for transferring an image to a fabric, including providing a recording medium; coating the recording medium with a specialty coating including a silicone release agent, a silicone emulsion catalyst, and a binder; printing an image on the recording medium including the specialty coating, the image being printed using a sublimation ink; adhering a powder adhesive to the image printed on the recording medium while the image is in a wet state; transferring the recording medium including powder adhesive and image to the fabric; and hot-pressing the powder adhesive and image to the fabric to adhere the powder adhesive and image to the fabric.

An ink jet textile printing penetrant includes a water-soluble organic solvent; a surfactant; and one type or two or more types selected from the group consisting of a chelating agent and an aromatic compound.

A polyamide coating slurry and its preparing method, and a process for preparing polyamide-coated fabric for printing are provided. The present disclosure provides a polyamide coating slurry for precise inkjet printing with wide applicability simple preparation steps. The surface structure and lipophilicity of the coating can be changed by mixing polyvinyl butyral and polyoxypropylene lauryl ether, urea and poly-N-isopropylacrylamide in polyamide 6, so that the adsorption properties and permeability of the coating to ink are greatly improved, and thus high-precision inkjet printing can be realized.

The present invention is directed to a nanoporous cerium oxide nanoparticle (NCeONP) macro-structure containing a plurality of the cerium oxide nanoparticles which define a plurality of macro-structure pores. The NCeONP macro structure may be used to improve pigment and/or dye performance.

Described herein are compositions useful for infusing color into nonwoven polyester containing product and methods to do so. Such compositions and methods comprise use of a color infusion composition comprising an antimigrant polymer; pigment; ammonium polyphosphate; and an anionic surfactant comprising phosphate. In certain embodiments, thermoplastic polymer having a glass transition temperature (Tg) of 93.0 C. or less is used to enhance color infusion.