| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 008467000 | DIFFUSION TRANSFER DYEING PROCESS, TRANSFER SHEET AND PRODUCT | 16 |
| 20110126364 | Process for producing dyed plastic lens - A process which enables a plastic lenses having a refractive index of 1.7 or greater and, in particular, plastic lenses having a refractive index of 1.7 to 1.8 to be dyed uniformly to a great density without unevenness, which is, specifically, a process for producing a dyed plastic lens which comprises conducting following steps (1), (2) and (3) in this order: Step (1): a step comprising coating a substrate at 60° C. or lower with an ink comprising a sublimation dye; Step (2): a step comprising decreasing content of water in the ink comprising sublimation dye coating the substrate to 50% by mass or less of the entire ink; and Step (3): a step comprising, after placing a plastic lens in a manner such that a face for dying of the lens and a face of the substrate coated with the ink comprising a sublimation dye face each other, sublimating the sublimation dye in the ink comprising a sublimation dye coating the substrate by heating the substrate obtained after Step (2) under a degree of vacuum of about 1×10 | 06-02-2011 |
| 20110131737 | SECURIZATION WITH DYE DIFFUSION TRANSFER LAMINATES - A security laminate containing a dye diffusion transfer image receptor layer comprising a polymeric mordant for dyes on a support having a laser engraved first dye diffusion transfer image or a laser marked dye diffusion transfer image receptor layer in an area lacking the first dye diffusion transfer image. Methods for manufacturing and securing security document precusors are also disclosed. | 06-09-2011 |
| 20120216355 | DYE-CHARGED PARTICLES - Methods, compositions, and systems for dyeing textiles are described. In particular, the methods may include contacting a textile with a plurality of dye-charged particles under dye-discharging conditions, agitating the textile and the dye-charged particles to transfer the dye from the particles to the textile, and separating the particles from the textile. Also disclosed are methods for charging a particle with dye, porous beads charged with dye, and kits for carrying out the claimed methods. | 08-30-2012 |
| 20140068877 | PRETREATMENT OF TEXTILE FOR INKJET PRINTING - This invention pertains to inkjet printing on textile including using a pretreatment solution containing poly(acrylic) acid, hydrophilic copolymers of poly(acrylic) acid or mixtures thereof to control bleed. | 03-13-2014 |
| 008468000 | Release layer utilized | 2 |
| 20100043152 | METHOD OF DRY TRANSFER PRINTING OF SYNTHETIC FIBROUS MATERIAL WITH DISPERSE DYE AND TRANSFER PAPER - A transfer paper which comprises a transfer paper base and a disperse dye ink printed thereon or imparted thereto. The transfer paper is used in a dry transfer printing method in which the transfer paper is pressed against a synthetic fibrous material with heating to thereby transfer the dye (pattern) from the transfer paper to the fibrous material. The transfer paper is characterized in that the transfer paper base has a releasant layer comprising a synthetic resin soluble in organic solvents and an ink-receiving layer made from a mixture comprising a hydrophilic synthetic resin which softens or melts upon heating, a hydrophilic binder, and various aids, the ink-receiving layer being superposed on the releasant layer. With this transfer paper for dry transfer printing, a highly fine pattern can be printed with excellent reproducibility. Furthermore, the transfer paper enables quick delivery by so-called printing without platemaking. The method of dry transfer plating employs this transfer paper. | 02-25-2010 |
| 20110000028 | THERMAL TRANSFER PRINTING - The invention relates to a receiver layer, preferably thermally transferable, for use in dye diffusion thermal transfer printing comprising a swellable inorganic lamellar material, e.g. a clay, that is at least partially in an exfoliated or intercalated state, and to a dye diffusion thermal transfer ribbon comprising such a receiver layer. | 01-06-2011 |
| 008470000 | Dry heat treatment for penetration | 10 |
| 20120073063 | System and Method For the Transfer of color and Other Physical Properties to Laminate Composite Materials and Other Articles - A method of transferring a dye to a composite material comprising applying the dye to a transfer media to create a colored transfer media, placing the colored transfer media into contact with the composite material, and applying, using an autoclave, at least one of heat, external pressure, vacuum pressure to infuse the dye to the composite material to create a colored composite material. | 03-29-2012 |
| 20140109324 | PAPER FOR TRANSFER PATTERN PRINTING - The invention relates to a transfer paper ( | 04-24-2014 |
| 008471000 | Sublimation | 8 |
| 20100139013 | THERMAL TRANSFER IMAGE-RECEIVING SHEETS - The present invention relates to a resin for use in a thermal transfer image-receiving sheet which is excellent in dyeability with dyes and releasability of the sheet, a resin dispersion using the resin, and a thermal transfer image-receiving sheet. The resin for a thermal transfer image-receiving sheet is obtained by addition polymerizing and condensation polymerizing (a) raw monomers of a polyester, (b) a raw monomer of an addition polymer-based resin containing at least one compound selected from the group consisting of styrene and styrene derivatives and (c) at least one dually reactive monomer selected from the group consisting of acrylic acid, methacrylic acid and derivatives of these acids, wherein the raw monomers (a) of a polyester include an alcohol component containing 80 mol % or more of an alkyleneoxide adduct of 2,2-bis(4-hydroxyphenyl)propane. | 06-10-2010 |
| 20100325816 | TIME AND TEMPERATURE ADDITIVE SCHEDULING - A sublimation donor has a first fabric enhancer that sublimates from the donor above a first temperature and follow by a second fabric enhancer that sublimates from the donor above a second temperature. Both the first and second temperatures used are above 260° F. and the second temperature is at least 10° F. higher than the first temperature. Upon sublimation under a single pass processing unit, first and second catalysts triggers the first and second fabric enhancers to sublimate at the first and second temperatures, respectively. | 12-30-2010 |
| 20110283464 | LOW VOLATILE SUBLIMATION PRINTING - A low volatile sublimation printing process comprises transferring a sublimation ink solid in an unsublimed form in a desired design by means of, for example, lithographic printing machinery, onto a medium such as paper. The image then is transferred from the medium onto a desired material in which sublimation takes place at the time of transfer onto that desired material. The sublimation ink can have a total volatile content of less than 10%, and preferably may have a total volatile content of less than 5%. | 11-24-2011 |
| 20120023684 | DYEING METHOD AND DYE DEPOSITION APPARATUS - A dyeing method of dyeing an object to be dyed comprise: a first step of placing a sublimable dye and the object to face each other apart at a predetermined distance under normal pressure and heating the sublimable dye to sublimate the sublimable dye toward the object, the distance between the sublimable dye and the object being determined at 0.1 mm or more but 10 mm or less, the heating using a laser beam to sublimate the sublimable dye so that a deposition region of the sublimable dye is a part of a to-be-dyed region of the object; a second step of applying the sublimable dye over the entire to-be-dyed region of the object by relatively moving the object with respect to a sublimation position of the sublimable dye by use of a moving unit to change over time the deposition region on the object with respect to the sublimable dye sublimated in the first step; and a third step of heating at least a part of the region of the object to which the sublimable dye is stuck in the second step by use of a heating unit to dye the object by fixing the sublimable dye stuck to the part of the region. | 02-02-2012 |
| 20130205517 | SUBLIMATION TRANSFER INK, METHOD FOR PRODUCING A DYED ARTICLE, AND DYED ARTICLE - A sublimation transfer ink to be discharged by an ink jet process contains water, a sublimation dye, and a trehalose-based compound. The amount of the trehalose-based compound in the sublimation transfer ink is preferably in the range of 3% by mass to 20% by mass, both inclusive. | 08-15-2013 |
| 20140123406 | INK AND DYED ARTICLE - An ink contains (A) water, (B) a disperse dye, (C) a resin dispersant, and (D) at least one selected from the group consisting of a compound represented by formula (1) and a compound represented by formula (2) and having an HLB of 15 or more: | 05-08-2014 |
| 20150113743 | DYEING BASE BODY, METHOD FOR PRODUCING DYED RESIN BODY, AND METHOD FOR PRODUCING DYEING BASE BODY - A dyeing base body to be used in a dyeing step of dyeing a resin body by heating a sublimable dye attached to the dyeing base body by electromagnetic waves to sublime the dye toward the resin body. The dyeing base body includes a metal base made in sheet form and an electromagnetic wave absorption layer formed on at least an opposite side to the side to which the dye will be attached. The electromagnetic wave absorption layer has a higher electromagnetic wave absorption rate than the base. | 04-30-2015 |
| 20160002848 | SYSTEMS AND METHODS FOR APPLYING A SUBLIMABLE DYE TO A SUBSTRATE - Systems and methods for applying a sublimable dye to a substrate are described herein. While such systems and methods can include any suitable component, in some cases, they include a sublimable dye transfer medium that includes a transfer sheet, a sublimable dye, a dye-permeable adhesive, and a release liner. While the various components of the transfer medium can be arranged in any suitable manner, in some cases, the dye is disposed on a first surface of the transfer sheet, the adhesive is disposed over the dye, and the liner is releasably attached to the adhesive. Thus, in some cases, a user can peel the liner from the adhesive, stick the transfer sheet to a substrate, and heat the transfer sheet to transfer dye from the sheet to the substrate. In some cases, dye is transferred from the transfer sheet to the substrate at an ambient pressure. Other implementations are described. | 01-07-2016 |
