JPH0441076B2 - - Google Patents

Description

Detailed Description of the Invention [Technical Field] The present invention is used in combination with a transfer sheet having a transfer layer containing a sublimable or vaporizable dye,
The present invention relates to a receiving sheet for thermal transfer that receives dye sublimated or vaporized by heating the transfer sheet. [Prior art] Conventionally, a transfer sheet having a transfer layer containing a sublimable or vaporizable dye and a receiving sheet are placed on top of each other, and the transfer sheet is heated to sublimate or vaporize the dye contained in the transfer layer and receive the dye. Dye the sheet,
Thermal transfer of forming dye images on receiver sheets is known. In this case, paper, synthetic paper, plastic film, etc. are used as the receiving sheet, and in order to improve dyeability, a sheet coated with an inorganic compound such as silica or calcium carbonate along with a binder is used. . By the way, when using a receiving sheet whose surface is coated with an inorganic compound, the resulting dye image is improved in density, sharpness, and fading resistance compared to when paper itself is simply used as the receiving sheet. , I was still not satisfied with it. [Objective] An object of the present invention is to provide a receiving sheet for thermal transfer that provides a dye image that is significantly improved in density, sharpness, fading resistance, and storage stability, and is also excellent in fading resistance and storage stability. [Structure] According to the present invention, a receiving sheet is used in combination with a transfer sheet having a transfer layer containing a sublimable or vaporizable dye, and receives the dye sublimated or vaporized by heating the transfer sheet. There is provided a receiving sheet for thermal transfer, characterized in that a receiving layer comprising a mixture of a heat-softened meltable resin and an organic filler that exhibits dyeability with the sublimable or vaporizable dye is provided on the surface thereof. Ru. The thermal transfer receiving sheet of the present invention has, on its surface,
It is characterized by providing a receptor layer made of a mixture of a thermofusible resin that is dyeable with sublimable or vaporizable dyes and an organic filler. In the receiving sheet of the present invention, as the resin used to form the receiving layer, any resin can be used as long as it is heat-softening and meltable and can be easily dyed with sublimation or vaporizable dyes. Various polymers well known in the art may be used. Examples of such materials include aminoalkyd resin, polyamide, polyurethane, polyvinyl chloride, polyvinyl acetate, polyester, acrylic resin, acetal resin, polyvinyl alcohol, polyvinylidene chloride, polyvinyl acetal, polystyrene, polycarbonate, epoxy resin, etc. can be mentioned. In the case of the present invention, the softening point is 60
It is better to use a resin with a temperature of ~120°C. Various fine polymer particles can be used as the organic filler, but the particle diameter is preferably 10 μm or less.
Examples of polymers constituting the organic filler include methylcellulose, ethylcellulose, polystyrene, polyurethane, urea/formalin resin, melamine resin, phenolic resin, iso(or diiso)butylene/maleic anhydride copolymer, styrene/mylenic anhydride. Examples include acid copolymers, polyvinyl acetate, polyvinyl chloride, vinyl chloride/vinyl acetate copolymers, polyesters, polyacrylic esters, polymethacrylic esters, styrene/butadiene/acrylic copolymers, and the like. To perform thermal transfer using the receptor sheet of the present invention, the transfer layer of the transfer sheet and the receptor layer of the receptor sheet are brought into polymeric contact and heated from the side of the transfer sheet that does not have the transfer layer, the opposite side, or both sides. Bye.
By this heating, the dye contained in the transfer layer is sublimated or vaporized, and the surface of the resin forming the receiving layer of the receiving sheet is softened and melted, and the vaporized dye enters the molten resin and is dyed. Therefore, in the case of the present invention, after the transfer is completed, the dye molecules are incorporated into the resin, so the fading resistance and storage stability of the resulting dye image are significantly improved, and more dye is adsorbed, resulting in a higher quality of the image. The density and sharpness are also very good. In addition, examples of the sublimable dye or vaporizable dye that can be applied to the transfer sheet include those shown below. Note that the term "sublimable dye" as used in the present invention means a dye that directly vaporizes from a solid state to a vapor when heated, and the "vaporizable dye" refers to a dye that vaporizes from a liquid state to a vapor state when heated. In the receptor sheet of the present invention, a receptor layer coating solution containing the dyeable heat-softening meltable resin and an organic filler is applied onto a sheet of paper, synthetic paper, plastic film, aluminum foil, etc. as a substrate. Manufactured by coating and drying. In this case, the dyeable resin is usually applied in the form of an aqueous emulsion, but of course it can also be applied by a hot melt method or the like in some cases. The ratio of resin and organic filler used is 1/9 to 9/1 by weight.
It is best to set the ratio to . Furthermore, when applying the receptive layer coating liquid to the substrate surface, it is possible to apply it not only to the entire surface of the substrate, but also to only necessary parts thereof, for example, in an imagewise manner according to a desired dye image. In the receiving sheet of the present invention, the organic filler mixed with the resin of the receiving layer exhibits the effect of facilitating peeling of the receiving sheet from the transfer sheet after completion of transfer. In the case of the present invention, the lower the softening point of the resin in the receptor layer, the better the pigmented image will be. makes peeling extremely difficult. The use of organic fillers solves these peeling problems. In addition, the organic filler prevents the heat transferred from the transfer layer to the receptor layer from escaping toward the substrate, and exhibits the effect of increasing the effective utilization rate of heat that is effectively utilized for softening and melting the resin. [Effects] The receiving sheet for thermal transfer of the present invention has the above-described structure, and the dye image formed on the receiving sheet has excellent fading resistance and storage stability, and is extremely excellent in density and sharpness. [Example] Next, the present invention will be explained in more detail with reference to Examples. Note that all parts and percentages shown below are based on weight. Example 1 Polyester resin emulsion (resin concentration 50
%) 40 parts Styrene resin fine particles 20〃 Water 40〃 The above composition was stirred and mixed for 1 hour, and the basis weight was 50g/m ²
A receptor sheet was prepared by coating and drying the mixture on high-quality paper to a dry weight of 4 g/m ² . Example 2 Acrylic resin emulsion (resin concentration 50%)
40 parts Urea-formalin condensate resin fine particles 20 Water 40 Using the above composition, it was coated on high quality paper and dried in the same manner as in Example 1 to prepare a receiving sheet. Comparative Example 1 A comparative receiving sheet was prepared in the same manner as in Example 1 except that calcium carbonate was used instead of the styrene resin fine particles. Comparative Example 2 A comparative receiving sheet was prepared in the same manner as in Example 1 except that silica was used instead of the styrene resin fine particles. Comparative Example 3 A receiving sheet for comparison was prepared in the same manner as in Example 2, except that calcium carbonate was used instead of the urea-formalin condensate resin fine particles. Comparative Example 4 A comparative receiving sheet was prepared in the same manner as in Example 2, except that silica was used instead of the urea-formalin condensate resin fine particles. Comparative Example 5 The polyester resin emulsion itself shown in Example 1 was used as a coating liquid, and the dry weight was 2.
A receiving sheet for comparison was prepared by coating on high-quality paper at a concentration of g/m ² and drying. Comparative Example 6 High-quality paper with a basis weight of 50 g/m ² was used as it was as a receiving sheet. The receiving sheet prepared as above and the sublimable dye (manufactured by Nippon Kayaku Co., Ltd., trade name KaYaSe ⁺ Bluee TD−
Transfer papers coated with P) and dried were stacked and heated at 200°C for 2 seconds, and the density, sharpness, and fading resistance (fade meter 20 hours) of the resulting images were evaluated using a 5-point evaluation method. The results are shown in the table below. 【table】

Claims (1)

[Claims] 1. A receiving sheet which is used in combination with a transfer sheet having a transfer layer containing a sublimable or vaporizable dye, and which receives the dye sublimated or vaporized by heating the transfer sheet, the surface of which is coated with the sublimable or vaporizable dye. 1. A receptor sheet for thermal transfer, comprising a receptor layer made of a mixture of a heat-softening meltable resin and an organic filler that exhibits dyeability with vaporizable dyes.