Claims
- 1. A method for transferring an image onto a backing of textile fabric comprising the steps of:providing a transfer sheet consisting essentially of a substrate of plain paper only without any release treatment or coating applied thereto, and a transfer coating of thermoplastic polymeric film material bonded on a transfer side of the plain paper substrate; forming a toner image on said transfer sheet in an electrostatic dry toner copier/printer by dry toner developing and fusing onto the polymeric film coating of the transfer sheet and without applying any adhesive overcoating or solvent layer thereon; and transferring the toner image to the backing of textile fabric by placing the polymeric film coating against the textile fabric and applying suitable heat and pressure for a sufficient time to an obverse side of the transfer sheet until the polymeric film material becomes tackified and adheres to the backing of textile fabric sufficiently to allow the plain paper substrate to be stripped away therefrom.
- 2. A method for transferring an image to a backing according to claim 1, wherein the toner image is transferred to the backing of textile fabric by the application of heat of about 160° C. to 200° C. and pressure of at least 50 psi in the transferring step.
- 3. A method for transferring an image to a backing according to claim 2, wherein the time of application of heat and pressure in the transferring step is about 5 to 10 seconds.
- 4. A method for transferring an image to a backing according to claim 1, wherein the plain paper substrate has a surface smoothness on the transfer side of about 50 Bendtzen or more and a weight density of about 80 to 100 gm/m2, the polymer film coating has a weight density of about 30 to 50 gm/m2, and the transfer sheet has a total weight density of about 120 to 150 gm/m2.
- 5. A method for transferring an image to a backing according to claim 1, wherein the plain paper substrate is machine-glazed kraft paper and the polymeric film material is ethyl vinyl acetate (EVA).
- 6. A method for transferring an image to a backing according to claim 1, wherein in said transferring step the plain paper substrate is peeled from the backing while still hot after the polymeric film coating becomes tackified and adheres to the backing.
- 7. A transfer sheet for use in imprinting a toner image thereon by electrostatic dry toner developing and fusing thereon and thereafter transferring the toner image to a backing of textile fabric, consisting essentially of:a substrate of plain paper only without any release treatment or coating applied thereto, and a transfer coating of thermoplastic polymeric film material bonded on the transfer side of the plain paper substrate, wherein said plain paper substrate and said polymeric film coating are selected such that an image can be formed by dry toner developing and fusing onto the polymeric film coating in an electrostatic dry toner copier/printer without separation of the film coating from the substrate and contamination of the copier/printer and transferred to the backing of textile fabric, without any overprint adhesive or solvent layer thereon, by application of heat and pressure for a sufficient time to an obverse side of the transfer sheet until the polymeric film material becomes tackified and adheres to the backing of textile fabric sufficiently to allow the plain paper substrate to be stripped away therefrom.
- 8. A transfer sheet according to claim 7, wherein the plain paper substrate has a surface smoothness on the transfer side of about 50 Bendtzen or more.
- 9. A transfer sheet according to claim 7, wherein the plain paper substrate has a tear resistance of about 32 to 34 Mullen.
- 10. A transfer sheet according to claim 7, wherein the plain paper substrate is one selected from a group consisting of one-sided machine-glazed paper, double-sided machine glazed paper, and satinated plain paper.
- 11. A transfer sheet according to claim 7, wherein the polymeric film material is low density polyethylene (LDPE).
- 12. A transfer sheet according to claim 7, wherein the polymeric film material is ethylene vinyl acetate (EVA).
- 13. A transfer sheet according to claim 7, having a total weight density of about 120 to 150 grams/m2.
- 14. A transfer sheet according to claim 7, wherein the plain paper substrate and the polymeric film coating have a ratio of weight densities of approximately 2:1.
- 15. A transfer sheet according to claim 7, wherein the plain paper substrate has a weight density of about 80 to 100 grams/m2 and the polymeric film coating has a weight density of about 30 to 50 grams/m2.
- 16. A transfer sheet according to claim 7, wherein the polymeric film coating is formed as an extruded film on the plain paper substrate.
- 17. A transfer sheet according to claim 7, wherein the polymeric film coating has a surface smoothness on the transfer side of about 25 Bendtzen.
- 18. A transfer sheet according to claim 7, wherein the plain paper substrate is made of both long and short cellulose fibers and the proportion of long fibers is about 50% to 80% of the total fiber quantity.
- 19. A transfer sheet according to claim 7, wherein the transfer side of the plain paper substrate has a surface smoothness of about 50 Bendtzen and the obverse side has a surface smoothness of about 400 to 500 Bendtzen.
- 20. A transfer sheet according to claim 7, wherein the plain paper substrate is a one-sided machine-glazed white kraft paper having a high long-fiber content.
Priority Claims (1)
Number |
Date |
Country |
Kind |
32 90 864 |
Jun 1989 |
DE |
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Parent Case Info
This application is a continuation-in-part of U.S. patent application Ser. No. 07/781,258, filed Dec. 24, 1991, now abandone entitled “Method For Transferring Design To A Backing”, by the same inventors, which is a §371 of PCT/EP90/01019, filed Jun. 26, 1990.
US Referenced Citations (5)
Foreign Referenced Citations (4)
Number |
Date |
Country |
3422286 |
Dec 1985 |
DE |
968977 |
May 1948 |
FR |
1334829 |
Jun 1962 |
FR |
8704393 |
Jul 1987 |
WO |
Non-Patent Literature Citations (1)
Entry |
“Non-Contaminating Heat Seal Formulation”, Larry R. Sagneri, Xerox Disclosure Journal. |
Continuation in Parts (1)
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Number |
Date |
Country |
Parent |
07/781258 |
|
US |
Child |
08/285892 |
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US |