Stock material or miscellaneous articles – Structurally defined web or sheet – Discontinuous or differential coating – impregnation or bond
Reexamination Certificate
1998-05-19
2001-03-13
Yamnitzky, Marie (Department: 1774)
Stock material or miscellaneous articles
Structurally defined web or sheet
Discontinuous or differential coating, impregnation or bond
C428S200000, C428S211100, C428S212000, C428S327000, C428S347000, C428S411100, C428S507000, C428S511000, C428S537500
Reexamination Certificate
active
06200668
ABSTRACT:
BACKGROUND OF THE INVENTION
The present invention relates to a heat transfer material, such as a heat transfer paper.
In recent years, a significant industry has developed which involves the application of customer-selected designs, messages, illustrations, and the like (referred to collectively hereinafter as “customer-selected graphics”) on articles of clothing, such as T-shirts, sweat shirts, and the like. These customer-selected graphics typically are commercially available products tailored for that specific end-use and are printed on a release or transfer paper. They are applied to the article of clothing by means of heat and pressure, after which the release or transfer paper is removed.
Some effort has been directed to allowing customers the opportunity to prepare their own graphics for application to an article of clothing. The preparation of such graphics may involve the use of colored crayons made from a heat-transferable material. Such crayons have been made available in kit form, which also includes an unspecified heat transfer sheet having an outlined pattern thereon. In a variation of the kit, the transferable pattern is created from a manifold of a heat transfer sheet and a reverse or lift-type copy sheet having a pressure transferable coating of heat transferable material thereon. By generating the pattern or artwork on the obverse face of the transfer sheet with the pressure of a drafting instrument, a heat transferable mirror image pattern is created on the rear surface of the transfer sheet by pressure transfer from the copy sheet. The heat transferable mirror image then can be applied to a T-shirt or other article by heat transfer.
The creation of personalized, creative designs or images on a fabric such as a T-shirt or the like through the use of a personal computer system has been described. The method involves electronically generating an image, electronically transferring the image to a printer, printing the image with the aid of the printer on an obverse surface of a transfer sheet which has a final or top coating consisting essentially of Singapore Dammar Resin, positioning the obverse face of the transfer sheet against the fabric, and applying energy to the rear of the transfer sheet to transfer the image to the fabric. The transfer sheet can be any commercially available transfer sheet, the heat-transferable coating of which has been coated with an overcoating of Singapore Dammar Resin. The use of abrasive particles in the Singapore Dammar Resin coating also has been described. The abrasive particles serve to enhance the receptivity of the transfer sheet to various inks and wax-based crayons.
Improved heat transfer papers having an enhanced receptivity for images made by wax-based crayons, thermal printer ribbons, and impact ribbon or dot-matrix printers have been disclosed. For example, a cellulosic base sheet has an image-receptive coating containing from about 15 to about 80 percent of a film-forming binder and from about 85 to about 20 percent by weight of a powdered polymer consisting of particles having diameters from about 2 to about 50 micrometers. The binder typically is a latex. Alternatively, a cellulosic base sheet has an image-receptive coating which typically is formed by melt extrusion or by laminating a film to the base sheet. The surface of the coating or film then is roughened by, for example, passing the coated base sheet through an embossing roll.
Some effort also has been directed at generally improving the transfer of an image-bearing laminate to a substrate. For example, an improved release has been described, in which upon transfer the release splits from a carrier and forms a protective coating over the transferred image. The release is applied as a solution and contains a montan wax, a rosin ester or hydrocarbon resin, a solvent, and an ethylene-vinyl acetate copolymer having a low vinyl acetate content.
Additional effort has been directed to improving the adhesion of the transferred laminate to porous, semi-porous, or non-porous materials, and the development of a conformable transfer layer which enables the melt transfer web to be used to transfer images to uneven surfaces.
Finally, it may be noted that there are a large number of references which relate to thermal transfer papers. Most of them relate to materials containing or otherwise involving a dye and/or a dye transfer layer, a technology which is quite different from that of the present invention.
In spite of the improvements in heat transfer papers, they all require removal of the carrier or base sheet from the material to which an image has been transferred while the carrier or base sheet still is warm. This requirement causes unique problems when transfer is attempted with a hand-held iron because of both uneven heating which is characteristic of hand ironing and cooling of previously ironed portions of the transfer material. Consequently, there is an opportunity for an improved heat transfer paper which will permit removal of the carrier or base sheet after it has cooled, i.e., a printable heat transfer paper having cold release properties. There also is a need for such a paper which is ink jet printable.
SUMMARY OF THE INVENTION
The present invention addresses some of the difficulties and problems discussed above by providing a printable heat transfer material having cold release properties, which material includes a flexible first layer having first and second surfaces. The first layer typically will be a film or a cellulosic nonwoven web. A second layer overlays the first surface of the first layer and is composed of a thermoplastic polymer having essentially no tack at transfer temperatures (e.g., 177 degrees Celsius or ° C.), a solubility parameter of at least about 19 (Mpa)
½
, and a glass transition temperature or T
g
of at least about 0° C. The thermoplastic polymer of which the second layer is composed may be, by way of example, a hard acrylic polymer or poly(vinyl acetate). A third layer overlays the second layer and includes a thermoplastic polymer which melts in a range of from about 65° C. to about 180° C.
By way of example, the first layer may be a cellulosic nonwoven web. For example, the cellulosic nonwoven web may be a latex-impregnated paper. As another example, the thermoplastic polymer included in the second layer may have a glass transition temperature of at least about 25° C. As a further example, the third layer may include a film-forming binder, which binder may include a powdered thermoplastic polymer. Additionally, the second layer also may include an effective amount of a release-enhancing additive, such as a divalent metal ion salt of a fatty acid, a polyethylene glycol, or a mixture thereof. For example, the release-enhancing additive may be calcium stearate, a polyethylene glycol having a molecular weight of from about 2,000 to about 100,000, or a mixture thereof.
If desired, a fourth layer may overlay the third layer in order to provide an ink jet printable heat transfer material. The fourth layer typically includes a film-forming binder and a powdered thermoplastic polymer, each of which melts in a range of from about 65° C. to about 180° C. Optionally, a fifth layer may overlay the second layer, in which case the third layer will overlay the fifth layer, rather than the second layer. The fifth layer includes a film-forming binder which melts in a range of from about 65° C. to about 180° C. as described above. The resulting ink jet printable heat transfer material possess cold release properties.
DETAILED DESCRIPTION OF THE INVENTION
As used herein, the term “printable” is meant to include the placement of an image on a material by any means, such as by direct and offset gravure printers, silk-screening, typewriters, laser printers, dot-matrix printers, and ink jet printers, by way of illustration. Moreover, the image composition may be any of the inks or other compositions typically used in printing processes.
The term “ink jet printable” refers to the formation of an image on a material, e.g., paper, by means of an in
Kilpatrick & Stockton LLP
Kimberly--Clark Worldwide, Inc.
Yamnitzky Marie
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