Abstract: A polypropylene environmentally friendly advertising cloth having a fabric base layer (20), which is a mesh braid made of Polypropylene woven by warp thread (21) and weft thread (22); a first waterproof and fireproof layer (30) and a second waterproof and fireproof layer (40) which are made by coating an aqueous polyacrylate coating slurry on the first surface (24) and the second surface (25) to form a thin film layer, the aqueous polyacrylate coating slurry penetrating the meshes (11); an ink-absorbing layer (50) which are made by coating a water absorption coating material that made of acrylic on the second waterproof and fireproof layer (40). The present invention is PVC free and non-toxic, so that it is particularly suitable for indoor advertising and interior decoration and fulfills the use for medical purposes.
Abstract: Provided is a textile printing paper for use in a paper printing method, the textile printing paper enabling the transfer of a high-resolution image to a printing substrate while being excellent in releasability. The textile printing paper comprises a base paper and a glue layer on a surface of the base paper, the base paper having a swelling rate of 130% by mass to 180% by mass.
Abstract: A heat-sensitive transfer image-receiving sheet, in which the heat-sensitive transfer image-receiving sheet is provided in a form that it is wound into a roll and all periphery of the roll is covered with a protective sheet, and in which the heat-sensitive transfer image-receiving sheet contains, on a support, at least one receptor layer containing a latex polymer, and at least one heat-insulating layer containing hollow polymer particles.
Abstract: An in-mold transfer film is formed to satisfy the conditions of F2>F1, F3>F2, F3>F1, and F3>F1+F4+F5, where F1 is an adhesive force at an interface between a base and a mold-release layer, F2 is an adhesive force at an interface between the mold-release layer and a printed ink layer, F3 is an adhesive force at an interface between the printed ink layer and a transferred object, F4 is a cohesive force of the mold-release layer, and F5 is a cohesive force of the printed ink layer.
Abstract: An ultraviolet post cure heat transfer label for application to an item includes a carrier web, a release coat applied to the carrier web and a composition including a cationic ultraviolet curable ink applied to the release coat. The ink has a solvent in a concentration of at a least about 20 percent by weight of the ink. The ink is dried in a non-UV process to form a storable film on the carrier web. The composition is transferred to the item and the ink is cured, by application of ultraviolet energy, following transfer to the item. A method for making the label and a method for marking an item are also disclosed.
Type:
Grant
Filed:
November 17, 2004
Date of Patent:
March 21, 2006
Assignee:
Illinois Tool Works, Inc.
Inventors:
Alan C. Grotefend, Paul Giusto, Michael B. Colella
Abstract: Transfers, suitable for applying complex designs to articles by the application of heat and pressure, are prepared simply and economically by printing the design onto plain paper or other fusible polymer-free substrate from a conventional ink-jet printer. The avoidance of polymer-coated paper allows the design to be transferred to fabric articles without altering the hand and feel of fabric in non-printed areas without the necessity of cutting the transfer from the substrate.