JPS60174689A - Transfer material for thermal recording - Google Patents

Abstract

PURPOSE:To prevent drop-out from occurring, by a method wherein a high molecular weight composition layer comprising white carbon particles and having a surface roughened by the presence of the particles is provided on the lower side of a base. CONSTITUTION:A coloring material layer 5 is provided on the upper side of the base 4, and the high molecular weight composition layer 6 is provided on the lower side. The composition comprises white carbon 7 at the inside part and the surface of the layer 6, and white carbon comprises hydrated silicon dioxide or calcium silicate as a main constituent. A thermosetting resin or a hardenable resin can be used as a binder in the composition, and a thermosetting resin is particularly excellent in adhesion to the base and heat resistance. The coloring material layer may have one of various constructions. The transfer material free of drop-out can be obtained by providing the high molecular weight composition layer comprising white carbon on a film base consisting of a polyester, a polyimide or the like.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of the Invention The present invention relates to a heat-sensitive recording transfer member used for recording by thermal transfer.

1 shows a schematic cross-sectional view of a transfer body for thermal recording (hereinafter abbreviated as transfer body) of a conventional example and its problems. 1 is a base of the transfer body, and 2 is a coloring material layer formed thereon. When a polymer film such as polyethylene terephthalate (hereinafter abbreviated as PET) or polyimide is used for the substrate 1 of the transfer body, the substrate is thermally melted by heat pulses from the thermal head, or static electricity during movement stabilizes the surface of the thermal head. I can't drive. Therefore, it has been proposed to form an antistatic and slippery polymer composition layer 3 on the lower surface of the substrate. However, since there are minute irregularities of several micrometers near the heating element of the thermal head, the polymer composition or additives in particular are scraped away at the uneven pressure between the platen and the thermal head, and accumulate on the heating element. , a problem occurred in which images would be missing in print (dropouts).

OBJECTS OF THE INVENTION It is an object of the present invention to eliminate the above-mentioned conventional drawbacks and to provide a transfer member that does not cause image dropouts.

Structure of the Invention The present invention is a transfer body in which a layer of a polymer composition containing white carbon particles and whose surface is roughened by the particles is provided on the lower surface of a substrate.

White carbon has a single particle size of almost 0.1 μm.
Since they are ultrafine particles, when added to a polymer composition, the surface of the polymer composition is ultrafinely roughened. As a result, even when the thermal head is run on, no deposits are generated on the heating element, probably because the rough surface has the effect of absorbing sharp irregularities on the head. Therefore, no dropout occurs. Furthermore, since the particle size is small, the frictional resistance with the thermal head does not increase too much.

Description of examples Examples of the present invention will be described below.

FIG. 2 shows a schematic cross-sectional view of a transfer body as an embodiment of the present invention. A coloring material layer 6 is provided on the upper surface of the substrate 4, and a polymer composition layer 6 is provided on the lower surface. The polymer composition contains white carbon 7 inside and on the surface. The main component of white carbon is hydrated silicon dioxide or calcium silicate. For example, 1 Carplex by Shionogi & Co., Ltd.
It is commercially available under the names of ``1 Nip Seal'' manufactured by Nippon Silikani Gyo Co., Ltd. and ``Jilton'' manufactured by Mizusawa Chemical Industry Co., Ltd. White carbon is 0.0% relative to the binder of the polymer composition.
It can be used in a range of 1 to 200% by weight. In particular, stable characteristics are exhibited when the addition ratio is in the range of 6 to 100% by weight. White carbon is well dispersed in a binder etc. by ultrasonic waves, a triple roll, a homogenizer, etc. Further, hydrated silicon dioxide can be used after the surface silanol groups are reduced by subjecting it to high temperature heat treatment.

The material of the binder of the polymer composition is not particularly limited, and various resins such as thermoplastic resins and resins that can be cured by heat, light, electron beams, etc. can be used.

In particular, curable resins have excellent adhesion to substrates and heat resistance. For example, silicone-based, acrylate-based,
There are epoxy resins, unsaturated aldehyde resins, etc. Among these, cured products of acrylate resins exhibit excellent properties. Further, since the resin curable by light or electron beam is easily cured in a short time, it is easy to produce a long 618: transfer body and exhibits good characteristics. For example, urethane acrylate, epoxy acrylate.

Oligoacrylates such as polyester acrylate and silicone acrylate, photo- or electron beam-cured products of unsaturated cycloacetal compounds, and photo-cured products of epoxy resins using aromatic diazonium salt catalysts are excellent.

Various reactive diluents such as butoxyethyl acrylate and pentaerythritol triacrylate can be added to the resin. The film thickness of the polymer composition is not particularly limited. Generally, from a production standpoint, a polymer composition having a film thickness of 0.1 μm or more is easily obtained and exhibits uniform characteristics.

The color material layer is not particularly limited, and may be a wax method,
Various color material layer configurations used in sublimation dye systems and the like can be used. Coloring materials are pigments.

In addition to dyes, it also includes color formers. As the sublimable dye, a dye that starts to sublimate or evaporate at 300° C. or lower can be used, such as basic dye 1 disperse dye.

Additives such as lubricants and surfactants can be added to the six-vane polymer composition, and silicone-based and fluorine-based additives, for example, exhibit particularly excellent effects.

The substrate of the present invention is not particularly limited as long as it is a polymer film, and examples include ester polymers such as polyethylene terephthalate, polyethylene naphthalate, and polycarbonate, amide polymers such as nylon, acetyl cellulose, Cellulose derivatives, such as polyvinylidene fluoride.

Tetrafluoroethylene-hexafluoropropylene copolymer.

Fluorine polymers such as Teflon, ether polymers such as polyoxymethylene and polyacetal, olefin polymers such as polystyrene, polyethylene, polypropylene and methylpentene polymers, imide polymers such as polyimide, polyamideimide and polyetherimide etc. can be used.

In particular, polyester-based polymers are useful because they are thin, have a certain degree of heat resistance, and are inexpensive.

In addition, the base material is more heat resistant than polyester polymers.
Imide-based, amide-based, and other polymers with , are useful when the transfer material is used repeatedly or when used at high speeds because they have excellent heat resistance.

This will be explained in more detail below.

Example 1 A PET film with a thickness of 9 μm is used as the base.

A coating liquid having the following composition was applied to the lower surface of this film using a wire bar, the solvent was evaporated with hot air at 60° C., and then a 1 KW high-pressure mercury lamp was irradiated to cure it.

(Leaving space below) Coating liquid composition: 9 tons. Next, ink containing 2 parts by weight of a dye represented by the molecular structure shown below, 4 parts by weight of polycarbonate, and 100 parts by weight of methylene chloride was applied to the top surface of the PIE T film using a wire bar. After coating, it was dried with hot air at 60'C to prepare a transfer body.

This transfer body was recorded on Mu 6 version activated clay coated paper under the following thin film type thermal head recording conditions.

Linear density of main and sub-scanning = 4 dots/rlI11 Recording power: 0.7 W/dot Head heating time: Bms Recording time for 1 line: 33.3 mg Recording area: Printed on 10 sheets of Mu6 version activated clay coated paper 10・、
- As a result, the number of dropouts that caused white lines in the image was zero.

Example 2 The base is made of polyimide (trade name) with a thickness of approximately 12 μm.

KAPTON, Toshi Co., Ltd.) film is used.

White carbon in the coating solution composition of Example 1 was changed to Nip Seal VN3 and applied to the lower surface of this film, and then a transfer body was prepared through the same procedure as in Example 1 and printed on 10 sheets of activated clay coated paper. . This result also showed that the number of dropouts was zero.

The above results also showed similar good characteristics in the case of wax type ink transfer bodies and thick film type thermal heads. In addition, as a structure of the transfer body, an undercoat layer may be provided on the upper and lower surfaces of the substrate, and a coloring material layer and a polymer composition layer may be formed thereon. Further, the present invention did not cause dropout even when applied to a paper-like substrate such as Paper 1 synthetic paper.

Effects of the Invention As described above, the present invention provides a transfer material that does not cause dropouts by forming a layer of a polymeric composition containing white carbon on various film substrates such as polyester and polyamide. I can do it. Therefore, it can be used for high-energy recording (or high-speed recording) that cannot be used with untreated substrates.

[Brief explanation of the drawing]

FIG. 1 is a schematic sectional view of a conventional transfer body, and FIG. 2 is a schematic sectional view of a transfer body in an embodiment of the present invention. 1.4...Base, 2,6...Coloring material layer,
3, 6... Polymer composition, 7... White carbon. Name of agent: Patent attorney Toshio Nakao and 1 other person No. 1
Figure 2

Claims (1)

[Scope of Claims] 0) A heat-sensitive device comprising a coloring material layer provided on the upper surface of a substrate, and a layer of a polymer composition containing white carbon particles and having a surface roughened by the particles provided on the lower surface of the substrate. Recording transfer material. (2) The transfer body for thermal recording according to claim 1, wherein the binder of the polymer composition is a cured product of a photocurable resin. (3) The transfer body for thermal recording according to claim 1, wherein the binder of the polymer composition is a cured product of oligoacrylate.