Patent Publication Number: US-5627127-A

Title: Thermal transfer sheet

Description:
This is a division of application Ser. No. 08/080,834 filed Jun. 24, 1993, now U.S. Pat. No. 5,418,209. 
    
    
     BACKGROUND OF THE INVENTION 
     The present invention relates to a thermal transfer sheet, and more particularly to a thermal transfer sheet which is excellent particularly in lubricity and heat resistance and can contribute to an improvement in the durability of a thermal head. 
     When an output of computers or word processors is printed by a thermal transfer system, use has hitherto been made of a thermal transfer sheet comprising a substrate film and, provided on one surface thereof, a hot-melt ink layer. Further, there is a sublimation thermal transfer system which is excellent in continuous tone and can provide a full color image comparable to a color photograph. 
     The thermal transfer sheet used in the hot-melt transfer system or sublimation thermal transfer system comprises a substrate film and, provided thereon, a recording agent layer comprising a hot-melt ink or a recording agent layer containing a sublimation dye. 
     In the above-described thermal transfer sheet, printing and formation of an image are effected by putting a recording agent and a material, on which an image is to be transferred, on top of each other and heating the assembly from the back surface of the substrate film by means of a thermal head. 
     However, when materials having a poor heat resistance, such as plastic films, are used as the substrate film, the substrate film sticks on the thermal head during printing, which is detrimental to peelability of the thermal transfer sheet from the thermal head and a slip property or gives rise to breaking of the substrate film, etc. 
     For this reason, a back surface layer having a heat resistance and a slip property is formed on the back surface of the substrate film. In order to improve the heat resistance of the back surface layer, for example, it is possible to form the back surface layer by using a thermosetting resin, a thermoplastic resin having a high-softening point, etc., or to incorporate inorganic particles or crosslinked resin particles having high heat resistance and lubricity into the back surface layer. In order to improve the slip property of the back surface layer, a proposal has been made on the addition of lubricants, such as silicone oil, low-melting wax and surfactants. 
     Although surfactants, such as phosphoric ester surfactants, have been used as a lubricant having a high lubricity, they had a problem that, when use is made of surfactants having a low heat decomposition temperature, they are decomposed by heat applied by the thermal head to produce a decomposition product which unfavorably deteriorates or corrodes the surface protective layer of the thermal head or deposits as refuse on the thermal head. 
     It is also known that a slip layer is formed by using a silicone oil or a silicone wax. Since, however, the silicone oil or wax has a low film strength, it is unfavorably scraped by the thermal head being travelled and gathers as refuse on the thermal head, so that good print cannot be provided. 
     Under the above-described circumstances, the present invention has been made, and an object of the present invention is to provide a thermal transfer sheet provided with a back surface layer capable of reducing the abrasion of the thermal head. 
     It is known that a back surface layer containing a phosphoric ester surfactant having an excellent lubricity is provided on the contact surface of the thermal head for the purpose of preventing the inhibition of travel of the thermal head and occurrence of breaking or wrinkle of the thermal transfer sheet attributable to sticking of the thermal transfer sheet to the thermal head. Since, however, the phosphoric ester surfactant has 1 to 2 equivalents of an acid radical, it unfavorably corrodes the thermal head. Further, when the quantity of heat from the thermal head becomes large, the phosphoric ester is decomposed, which further lowers the pH value, so that the corrosion abrasion of the thermal head becomes severe. It is a matter of course that the use of a phosphoric ester surfactant converted to a salt type though neutralization is known in the art. Since, however, such a surfactant has a poor lubricity, the stickiness of the thermal transfer sheet to the thermal head cannot be prevented. Accordingly, the second object of the present invention is to provide a thermal transfer sheet provided with a good back surface layer which is excellent in heat resistance, film property, slip property, etc., can provide good travelling of the thermal head and gives rise to neither gathering of refuse on the thermal head nor abrasion of the thermal head. 
     In the above-described thermal transfer sheet, since a thin polyester film has hitherto been used as the substrate film, the thermal transfer sheet had a problem that, during printing with a thermal head, the thermal head is fused to the back surface of the thermal transfer sheet to give rise to wrinkle on the thermal transfer sheet or breaking of the thermal transfer sheet. In order to solve these problems, a layer having a heat resistance and a lubricity has been formed on the back surface of the substrate sheet. For example, a proposal has been made on the incorporation of lubricants having an excellent lubricity, such as silicone lubricants, surfactant lubricants, various types of wax and fatty acids, into a heat-resistant layer (see, for example, Japanese Patent Application No. 137977/1990). This method, however, has a problem of contamination of the thermal head with the lubricant bled out on the back surface layer and a problem of poor workability. 
     Examples of other methods known in the art include a method wherein particles or the like are added to the back surface layer to render the surface of the back surface layer uneven, thereby reducing the area of contact of the back surface layer with the thermal head to impart the lubricity to the back surface layer (see, for example, Japanese Patent Application No. 145390/1990) and a method wherein use is made of a combination of this method with the above-described methods (see, for example, Japanese Patent Application No. 259889/1977). In these methods, however, the travelling of the energized head during energization heating is poor, which often has an adverse effect on the printed image depending upon the configuration of the uneven portions or the properties of the particles used or gives rise to abrasion of the thermal head. 
     Accordingly, the third object of the present invention is to provide a thermal transfer sheet which is excellent in both the heat resistance and lubricity, can provide good travelling of the thermal head and form a good image and gives rise to no abrasion of the thermal head. 
     SUMMARY OF THE INVENTION 
     In order to attain the above-described object, according to one aspect of the present invention, there is provided a thermal transfer sheet comprising a substrate film, a recording agent layer formed on one surface of said substrate film, and a back surface layer formed on the other surface of said substrate film, said back surface layer containing at least one lubricant having a heat decomposition temperature of 200° C. or above. 
     When printing or formation of an image is effected by putting the recording agent layer and a material, on which an image is to be transferred, on top of each other and heating the assembly from the back surface layer of the substrate sheet by means of a thermal head, since the back surface layer contains at least one lubricant having a heat decomposition temperature of 200° C. or above, the heat decomposition product produced by the heat applied by the thermal head is reduced according to the proportion of the lubricant having the above-described heat decomposition temperature relative to the whole lubricant, so that the abrasion of the thermal head is also reduced. 
     The above-described second object can be attained by the following invention. Specifically, according to another aspect of the present invention, there is provided a thermal transfer sheet comprising a substrate sheet, a thermally transferable colorant layer formed on one surface of the substrate sheet and a back surface layer formed on the other surface of the substrate sheet, said back surface layer containing a phosphoric ester surfactant, an alkaline substance and a binder. 
     When a phosphoric ester surfactant and an alkaline substance are added to the back surface layer of the thermal transfer sheet, even though the phosphoric ester surfactant is decomposed by heat applied by the thermal head to produce an acid radical or activated by heat to have a strongly acidic nature, since the acid radical is neutralized with the alkaline substance coexisting in the system, there occurs neither corrosion nor abrasion of the thermal head attributable to the occurrence of an acid radical. 
     Further, according to a preferred embodiment, the adoption of a particular binder can provide a thermal transfer sheet having good heat resistance and back surface layer which is excellent in the travelling of the thermal head and gives rise to neither gathering of refuse on the thermal head nor abrasion of the thermal head. 
     The above-described third object can be attained by the following invention. Specifically, according to a further aspect of the present invention, there is provided a thermal transfer sheet comprising a substrate sheet, a thermally transferable colorant layer formed on one surface of the substrate sheet and a back surface layer formed on the other surface of the substrate sheet, said back surface layer comprising a resin binder and particles having a Mohs hardness of less than 3. 
     The presence of particles having a Mohs hardness of less than 3 in the back surface layer can provide a thermal transfer sheet which is excellent in both heat resistance and lubricity, can provide good travelling of the thermal head and form a good image and gives rise to no abrasion of the thermal head. 
    
    
     BRIEF DESCRIPTION OF THE DRAWING 
     FIG. 1 is a cross-sectional view of the thermal transfer sheet according to one embodiment of the present invention. 
    
    
     BEST MODE FOR CARRYING OUT THE INVENTION 
     Embodiments of the present invention will now be described with reference to the accompanying drawing. 
     FIG. 1 is a schematic cross-sectional view of one embodiment of the thermal transfer sheet of the present invention. In FIG. 1, the thermal transfer sheet 1 comprises a substrate film 2, a back surface layer 3 formed on one surface of the substrate film 2 and a recording agent layer 4 formed on the other surface of the substrate film 2. A thermal head (not shown) is brought into contact with the back surface layer 3. 
     In the present invention, there is no particular limitation on the substrate film 2, and use may be of various substrate films used in the conventional thermal transfer sheet. 
     Preferred examples of the substrate film 2 include films of plastics, such as polyesters, polypropylene, polyphenylene sulfide (PPS), polyethylene naphthalate (PEN), 1,4-polycyclohexylene dimethylene terephthalate (PCT), cellophane, polycarbonate, cellulose acetate, polyethylene, polyvinyl chloride, polystyrene, nylon, polyimide, polyvinylidene chloride, polyvinyl alcohol, fluororesin, chlorinated rubber and ionomer, paper, such as capacitor paper and paraffin paper, and nonwoven fabrics. Further, it is also possible to use a laminate comprising any combination of the above-described substrate films. 
     Although the thickness of the substrate film 2 may be properly determined by taking necessary strength and heat conductivity into consideration, it is generally in the range of from about 0.5 to 50 μm, preferably in the range of from about 3 to 10 μm. 
     The back surface layer in the thermal transfer sheet according to the first aspect of the present invention will now be described. 
     The back surface layer 3 serves to impart heat resistance and slip property to the back surface (the surface with which the thermal head is brought into contact) of the substrate film, and comprises a binder resin, a lubricant and other necessary additives. At least one lubricant having a heat decomposition temperature of 200° C. or above is contained as the lubricant. 
     Examples of the lubricant used in the back surface layer 3 include wax, such as polyethylene wax and paraffin wax, higher aliphatic alcohols, organopolysiloxane, anionic surfactants, cationic surfactants, amphoteric surfactants, nonionic surfactants, fluorosurfactants, organic carboxylic acids and their derivatives. 
     Among them, examples of lubricants having a heat decomposition temperature of 200° C. or above include alkali metal salts or amides of carboxylic acids and sulfonic acids (for example, sodium sulfonate), alkali metal salts of phosphoric esters and sulfuric esters (for example, a sodium salt of a phosphoric ester), esters or amides of higher fatty acids, wax, paraffin and organopolysiloxanes. 
     The amount of the lubricant contained in the back surface layer 3 is in the range of from 5 to 50% by weight, preferably in the range of from 10 to 30% by weight. The proportion of the lubricant having a heat decomposition temperature of 200° C. or above relative to the whole lubricant is in the range of from 1 to 100% by weight, preferably in the range of from 50 to 100% by weight. 
     As described above, since the back surface layer 3 contains at least one lubricant having a heat decomposition temperature of 200° C. or above, there occurs no or little, if any, heat decomposition of the lubricant by heat applied by means of the thermal head. Therefore, the deterioration (corrosion) of the surface protective film of the thermal head attributable to the heat decomposition product produced by the heat decomposition of the lubricant, which is a problem of the conventional thermal transfer sheet, can be effectively prevented, which favorably results in the reduction of the abrasion of the thermal head. 
     Examples of the binder resin used in the back surface layer 3 include cellulosic resins, such as ethyl cellulose, hydroxyethyl cellulose, hydroxypropyl cellulose, methyl cellulose, cellulose acetate, cellulose acetobutyrate and nitrocellulose, vinyl resins, such as polyvinyl alcohol, polyvinyl acetate, polyvinyl butyral, polyvinyl acetal, polyvinyl pyrrolidone, acrylic resins, polyacrylamide and acrylonitrile-styrene copolymers, polyester resins, polyurethane resin, and silicone-modified or fluorine-modified urethane. In this connection, it is preferred that a binder resin having a reactive group, for example, a hydroxyl group, is used in combination with a crosslinking agent, such as polyisocyanate, to form a cross inked resin layer. 
     The back surface layer in the thermal transfer sheet according to the second aspect of the present invention will now be described.. 
     The back surface layer formed on one surface of the above-described substrate sheet is characterized by containing a phosphoric ester surfactant and an alkaline substance. Examples of the phosphoric ester surfactant include nonionic or anionic phosphoric ester surfactants, for example, 
     (1) long-chain alkylphosphoric esters, for example, mono and/or diesters of saturated or unsaturated higher alcohols having usually 6 to 20 carbon atoms, preferably 12 to 18 carbon atoms, for example, cetyl alcohol, stearyl alcohol or oleyl alcohol, with phosphoric acid; 
     (2) phosphoric esters, such as polyoxyalkylene alkyl ethers or polyoxyalkylene alkylaryl ethers; 
     (3) phosphoric mono or diester salts of alkylene oxide adducts of the above-described saturated or unsaturated alcohols (number of moles of addition: usually 1 to 8) or alkylene oxide adducts of alkyl phenols or alkylnaphthols having at least one, preferably 1 to 2 alkyl groups having 8 to 12 carbon atoms (such as nonyl phenol, dodecyl phenol and diphenyl phenol) (number of moles of addition: usually 1 to 8). 
     Examples of the alkaline substance used in combination with the above-described phosphoric ester surfactants include oxides or hydroxides of alkali metals or alkaline earth metals and/or organic amines. 
     Preferred examples of the oxide or hydroxide of alkali metal or alkaline earth metal include magnesium hydroxide, magnesium oxide, hydrotalcite, aluminum hydroxide, aluminum silicate, magnesium silicate, magnesium carbonate and alumina hydroxide/magnesium aluminum glycinate. They particularly preferably have a Mohs hardness of less than 3. Preferred examples of the organic amine include mono-, di- or trimethylamine, mono-, di- or triethylamine, mono-, di- or tripropylamine, mono-, di- or tributylamine, mono-, di- or tripentylamine, trihexylamine, trioctylamine, monodecylamine, mono- or didecylamine, monotridecylamine, monotetradecylamine, monopentadecylamine, monohexadecylamine, monoheptadecylamine, monooctadecylamine, monoeicosylamine, monodocosylamine, mono-, di- or triethanolamine, mono- or dipropanolamine, monoisopropanolamine, N-methyl-nonylamine, N-methyl-decylamine and N-ethyl-palmitylamine. The organic amine is particularly preferably nonvolatile at room temperature and has a boiling point of 200° C. or above. 
     These amines stably exist in the back surface layer, and, when heat is applied to the back surface layer by the thermal head, they become fluid or bleed out on the surface of the back surface layer to easily neutralize an acid radical produced in the phosphoric ester surfactant or a heat decomposition product thereof, thereby preventing the corrosion of the thermal head and, at the same time, developing an excellent lubricity together with the phosphoric ester surfactant. 
     With respect to the amount of use of the above-described phosphoric ester surfactant and alkaline substance, it is suitable that the amount of the alkaline substance is in the range of from 0.1 to 10 mol based on one mole of the phosphoric ester surfactant. When the amount of the alkaline substance is excessively small, the object of the present invention cannot be attained, while when it is excessively large, no further improvement in the effect can be attained. The oxides or hydroxides of alkali metals or alkaline earth metals and the organic amines may be used alone or in combination thereof. 
     The above-described phosphoric ester surfactant and alkaline substance are essential components of the back surface layer of the thermal transfer sheet according to the present invention. In some cases, however, when the back surface layer consists of the above-described components alone, the strength of the film as the back surface layer is unsatisfactory. Therefore, it is preferred to use as a film forming agent a resin binder in combination with the above-described components. 
     Although the resin binder may be a thermosetting resin, an ionizing radiation curing resin or the like so far as it has a capability of forming a film, the thermoplastic resin or a crosslinked product thereof is preferred. Preferred examples of the thermoplastic resin include polyester resins, polyacrylic ester resins, polyvinyl acetate resins, styrene-acrylate resins, polyurethane resins, polyolefin resins, polystyrene resins, polyvinyl chloride resins, polyether resins, polyamide resins, polycarbonate resins, polyetylene resins, polypropylene resins, polyacrylate resins, polyacrylamide resins, polyvinyl chloride resins, and polyvinyl acetal resins, such as polyvinyl butyral resins and polyvinyl acetoacetal resins, are particularly preferred. Among them, thermoplastic resins having a hydroxyl radial, particularly polyvinyl acetal resins, such as polyvinyl butyral resins and polyacetoacetal resins, are particularly preferred. 
     In a preferred embodiment of the present invention, it is preferred to use polyisocyanate as a crosslinking agent in combination with the above-described components for the purpose of imparting, to the back surface layer, good heat resistance and film properties and adhesion to the substrate material. These polyisocyanates may be any known polyisocyanate used in paints, adhesives, synthesis of polyurethane, etc. Examples of these polyisocyanate compounds include those commercially availiable under the trade names of Takenate (manufactured by Takeda Chemical Industries, Ltd.), Barnock (manufactured by Dainippon Ink and Chemicals, Inc.), Coronate (manufactured by Nippon Polyurethane Industry Co., Ltd.),, Duranate (manufactured by Asahi Chemical Industry Co., Ltd.), and Desmodur (manufactured by Bayer). 
     The amount of addition of the polyisocyanate is preferably in the range of from 5 to 200 parts by weight based on 100 parts by weight of the resin binder constituting the back surface layer. It is preferably in the range of from about 0.8 to 2.0 in terms of the NCO/OH ratio. When the polyisocyanate content is excessively low, the crosslinking density is so low that the heat resistance is unsatisfactory. On the other hand, it is excessively high, there occur problems including that it is impossible to regulate the shrinkage of the formed coating, the curing time is prolonged and the unreacted NCO remains in the back surface layer to react with moisture in the air. 
     In the present invention, in order to form a back surface layer from the above-described materials, it is also possible to incorporate heat release agents and lubricants, such as wax, higher fatty acid amides and other surfactants, antistatic agents, powders of organic materials, such as fluororesins, and particles of inorganic materials, such as silica, clay, talc and calcium carbonate for the purpose of improving the slip property of the back surface layer. Further, in order to improve the antistatic property of the thermal transfer sheet, it is also possible to add antistatic agents, such as surfactants, and conductive agents, such as carbon black. 
     The back surface layer is formed by dissolving or dispersing the above-described materials in a suitable solvent, such as acetone, methyl ethyl ketone, toluene or xylene, to prepare a coating solution, coating the coating solution by conventional coating means, such as a gravure coater, a roller coater or a wire bar, and drying the coating. 
     The coverage, that is, the thickness of the back surface layer is also important, and in the present invention, it is possible to form a back surface layer having a satisfactory performance in a thickness of 5.0 g/m 2  or less, preferably 0.1 to 1.0 g/m 2 , on a solid basis. In the present invention, in many cases, since unreacted isocyanate group remains in the back surface layer as formed, it is preferred to effect a sufficient aging treatment after the formation of the layer. Such a treatment causes the back surface layer to have a pencil hardness of about H to 2H. It is also useful to form a primer layer comprising a polyurethane resin or the like prior to the formation of the above-described back surface layer. 
     The back surface layer in the thermal transfer sheet according to the third aspect of the present invention will now be described. 
     In the third aspect of the present invention, the back surface layer is formed on one surface of the above-described substrate sheet by using a resin binder and particles as main materials. The resin binder may be any resin having a certain degree of heat resistance and film forming property, and examples thereof include thermoplastic resins, such as polyester resins, polyacrylic ester resins, polyvinyl acetate resins, styrene-acrylate resins, polyurethane resins, polyolefin resins, polystyrene resins, polyvinyl chloride reins, polyether resins, polyamide resins, polycarbonate resins, polyethylene resins, polypropylene resins, polyacrylate, resins, polyacrylamide resins polyvinyl chloride resins, polyvinyl butyral resins and polyvinyl acetoacetal resins, and silicone-modified products of the above-described resins. They may be used alone or in the form of a mixture thereof. Among them, polyvinyl acetal resins, such as polyvinyl butyral resins and polyacetoacetal resins, and silicone-modified products thereof are particularly preferred. A particularly preferred resin is a resin having a reactive group capable of reacting with the isocyanate group, such as a hydroxyl group. 
     These resin binders may contain polyisocyanates, chelate curing agents, radiation polymerizable monomers, etc. so as to form a film having a crosslinked structure. When the film has a crosslinked structure, the heat resistance and strength of the film can be improved, so that it becomes possible to eliminate the problem of gathering of refuse on a thermal head during printing with the thermal head and a failure of printers attributable to the gathering of refuse. 
     Polyisocyanates are preferably used as the crosslinking agent. These polyisocyanates may be any known polyisocyanate used in paints, adhesives, synthesis of polyurethane, etc. Examples of these polyisocyanate compounds include those commercially available under the trade names of Takenate (manufactured by Takeda Chemical Industries, Ltd.), Barnock (manufactured by Dainippon Ink and Chemicals, Inc.), Coronate (manufactured by Nippon Polyurethane Industry Co., Ltd.), Duranate (manufactured by Asahi Chemical Industry Co., Ltd.), and Desmodur (manufactured by Bayer). The amount of use of the above-described polyisocyanates is in the range of from 50 to 300 parts by weight in terms of the effective component based on 100 parts by weight of the resin binder. 
     The particles used in the present intention have a Mohs hardness of less than 3.0, preferably 2.5 or less, and examples thereof include particles of inorganic materials, such as talc, kaolin, graphite, niter, gypsum and brucite, and particles of organic resins having a hardness corresponding to a Mohs hardness of less than 3.0, such as acrylic resins, teflon resins, silicone resins, lauroyl resins, phenolic resins and crosslinked polyacetal resins. When the above-described inorganic particles are natural inorganic particles, even though they contain impurity particles having a Mohs hardness of 3.0 or more, such inorganic particles can be used in the present invention without any problem so far as the content of the impurity particles is less than 5% by weight. 
     The Mohs hardness is measured with Mohs scale of hardness. The Mohs hardness has been proposed by F. Mohs. 10 minerals ranging from soft minerals to hard minerals are contained in a box with the order of hardness being designated from the softest to the hardness: 1°, 2°, . . . , 10°. Reference minerals used are as follows (numerals represent hardness). 
     1: talc, 2: gypsum, 3: calcite, 4: fluorite, 5: apatite, 6: orthoclase, 7: quartz, 8: topaz, 9: corundum, and 10: diamond. 
     When the surface of a mineral sample of which the hardness is to be determined is scratched with a reference mineral to give a scratch, a comparison of the hardness between the two minerals can be made based on the force resistant to the scratch (i.e. Whether or not a scratch occurs). For example, when the sample is scratched with calcite, if no scratch occurs in the mineral sample with a scratch occurring in the calcite, the hardness of the sample is larger than 3°. If the fluorite gives a scratch to the sample with no scratch occurring in the fluorite, the hardness of this sample is smaller than 4°. In this case, the hardness of the sample is designated 3 to 4 or 3.5. When a scratch somewhat occurs in both the sample and the reference minerals, the hardness of the sample is designated the same value as the reference mineral. The hardness designated by the Mohs scale of hardness represents the order of hardness but not an absolute value. 
     In the above-described particles, the diameter and shape are also important. The diameter of the particles is generally in the range of from 0.01 to 10 μm and preferably in the range of from 30 to 400% of the thickness of the back surface layer, although it varies depending upon the thickness of the back surface layer. With respect to the shape of the particles, a spherical shape rather than an acicular or columnar shape can impart a superior lubricity to the heat-resistant layer. 
     It is preferred for the above-described particles to be used in a proportion of 5 to 40 parts by weight based on 100 parts by weight of the above-described resin binder. When the amount of use of the particles are excessively small, the effect of imparting the lubricity is unsatisfactory. On the other hand, when it is excessively large, the flexibility or film strength of the formed back surface layer lowers. 
     Further, in the present invention, it is also possible to add, besides the above-described main components, additives known in the art, such as lubricants and antistatic agents, for example, lubricants, such as wax, silicone oil, higher fatty acid amides, esters and surfactants, and antistatic agents, such as quaternary ammonium salts and phosphoric esters in such an amount as will not spoil the object of the present invention. 
     When the phosphoric ester surfactant is used in combination with the alkaline substance and the particles having a Mohs hardness of less than 3, it is preferred for each of the phosphoric ester surfactant and alkaline substance to be used in an amount of 5 to 500 parts by weight based on 100 parts by weight of the above-described resin binder with the particles having a Mohs hardness of less than 3 being used in an amount of 5 to 40 parts by weight based on 100 parts by weight of the resin binder. When the amount of use of these materials is excessively small, the effect of imparting the lubricity and the neutralization effect are unsatisfactory. On the other hand, when the amount of use of these materials is excessively large, the flexibility and film strength of the back surface layer as a lubricating layer unfavorably lower. 
     The back surface layer in the thermal transfer sheet according to the present invention can be formed by dissolving or dispersing the above-described materials in a suitable solvent, such as acetone, methyl ethyl ketone or xylene, to prepare a coating solution, coating the coating solution on one surface of the substrate sheet by conventional coating means, such as a gravure coater, a roller coater or a wire bar and drying the coating and, if necessary, subjecting the dried coating to a crosslinking solution. The back surface layer is formed in a thickness of usually in the range of from 0.1 to 2 μm, preferably in the range of from 0.5 to 1 μm. It is noted that the formation of a primer layer comprising a polyurethane or polyester resin on the surface of the substrate sheet prior to the formation of the back surface layer is also useful in the present invention. 
     In the present invention, a primer layer may be provided between a substrate film 2 and a back surface layer 3. The primer layer contributes to an improvement in the adhesion of the back surface layer 3 to the substrate film 2. It may comprises, for example, an adhesive resin, such as a linear saturated polyester resin having a glass transition temperature of 50° C. or above or a mixture of such an adhesive resin with the above-described binder resin. 
     With respect to the colorant layer (recording agent layer) formed on the surface of the substrate sheet remote from the back surface layer, a layer containing a sublimation dye is formed in the case of a sublimation thermal transfer sheet, while a wax ink layer colored by a pigment is formed in the case of a hot-melt thermal transfer sheet. 
     The sublimation thermal transfer sheet will now be described as a representative example, though the present invention is not limited to the sublimation thermal transfer sheet alone. 
     There is no particular limitation on the dye used in the dye layer, and any dye used in the conventional thermal transfer sheets may be usefully used in the present invention. Several preferred examples of the dye will now be described. Examples of red dyes include MS Red G, Macrolex Red Violet R, Ceres Red 7B, Samaron Red HBSL and Resolin Red F3BS. Examples of yellow dyes include Phorone Brilliant Yellow 6GL and PTY-52 and Macrolex Yellow 6G. Examples of blue dyes include Kayaset Blue 714, Waxoline Blue Ap-FW, Phorone Brilliant Blue S-R and MS Blue 100. Preferred examples of binder resins for supporting the above-described dyes include cellulosic resins, such as ethyl cellulose, hydroxyethyl cellulose, ethylhydroxyl cellulose, hydroxypropyl cellulose, methyl cellulose, cellulose acetate, cellulose acetobutyrate, vinyl resins, such as polyvinyl alcohol, polyvinyl acetate, polyvinyl butyral, polyvinyl acetal and polyvinyl pyrrolidone, acrylic resins, such as poly(meth)acrylate and poly(meth)acrylamide, polyurethane resins, polyamide resins, and polyester resins. Among them, cellulosic, vinyl, acrylic, polyurethane, polyester and other resins are preferred from the viewpoint of heat resistance and migration of dye. 
     The dye layer can be formed by coating one surface of the above-described substrate sheet with a suitable organic solvent solution or water or organic solvent dispersion of the above-described dye and binder and optionally containing necessary additives, for example, a release agent, for example, by a gravure printing method, a screen printing method or a reverse roll coating method wherein use is made of a gravure print, and drying the resultant coating to form a dye-receiving layer. 
     The thickness of the dye layer thus formed is in the range of from 0.2 to 5.0 μm, preferably in the range of from 0.4 to 2.0 μm. It is preferred for the content of the sublimation dye in the dye layer to be in the range of from 5 to 90% by weight, preferably in the range of from 10 to 70% by weight, based on the weight of the dye layer. 
     When the desired image is a monocolor image, one color is selected from the above-described dyes for the formation of the dye layer. On the other hand, when the desired image is a full color image, suitable cyan, magenta and yellow (and further black according to need) dyes are selected for the formation of the dye layer. 
     The image receiving sheet used for the formation of an image using the above-described thermal transfer sheet may be any one so far as the recording face has a capability of receiving the above-described dyes. When use is made of materials not having a capability of receiving the dyes, such as paper, metals, glass, synthetic resins, a dye receiving layer may be formed on at least one surface of such materials. In the case of a hot-melt thermal transfer sheet, there is no particular limitation on the material, on which an image is to be transferred, and use may be made of conventional paper and plastic films. 
     There is no particular limitation on the printer for effecting a thermal transfer with the above-described thermal transfer sheet and image receiving sheet, and conventional thermal transfer printers, as such, may be used. 
     The present invention will now be described in more detail with reference to the following Examples. In the Examples, &#34;parts&#34; or &#34;%&#34; is by weight unless otherwise specified. 
     EXAMPLE A 
     At the outset, the following 9 compositions for a back surface layer were prepared. 
     
         ______________________________________                                    
Composition No. 1 for back surface layer                                  
Polyvinyl butyral resin  100 parts                                        
(solid content: 8%)      by weight                                        
(Eslec BX-1 manufactured by Sekisui                                       
Chemical Co., Ltd.)                                                       
Lubricant                1.6 parts                                        
(heat decomposition temp. = 365.6° C.)                             
                         by weight                                        
(Nonion OP-85R manufactured by Nippon                                     
Oils &amp; Fats Co., Ltd.)                                                    
Composition No. 2 for back surface layer                                  
Polyvinyl butyral resin  100 parts                                        
(Eslec BX-1 manufactured by Sekisui                                       
                         by weight                                        
Chemical Co., Ltd.)                                                       
Lubricant                1.6 parts                                        
(heat decomposition temp. = 300° C.)                               
                         by weight                                        
(Attrait AS1000 manufactured by Nippon                                    
Mining Co., Ltd.)                                                         
Composition No. 3 for back surface layer                                  
Polyvinyl butyral resin  100 parts                                        
(Eslec BX-1 manufactured by Sekisui                                       
                         by weight                                        
Chemical Co., Ltd.)                                                       
Lubricant                0.8 parts                                        
(heat decomposition temp. = 401.7° C.)                             
                         by weight                                        
(Unister H381R manufactured by Nippon                                     
Oils &amp; Fats Co., Ltd.)                                                    
Lubricant                0.8 parts                                        
(heat decomposition temp. = 190° C.)                               
                         by weight                                        
(Plysurf A208S manufactured by Dai-Ichi                                   
Kogyo Seiyaku Co., Ltd.)                                                  
Composition No. 4 for back surface layer                                  
Polyvinyl butyral resin  100 parts                                        
(Eslec BX-1 manufactured by Sekisui                                       
                         by weight                                        
Chemical Co., Ltd.)                                                       
Lubricant                0.8 parts                                        
(heat decomposition temp. = 300° C.)                               
                         by weight                                        
(Attrait AS1000 manufactured by Nippon                                    
Mining Co., Ltd.)                                                         
Lubricant                0.8 parts                                        
(heat decomposition temp. = 190° C.)                               
                         by weight                                        
(Plysurf A208S manufactured by Dai-Ichi                                   
Kogyo Seiyaku Co., Ltd.)                                                  
Composition No. 5 for back surface layer                                  
Polyvinyl butyral resin  100 parts                                        
(solid content: 8%)      by weight                                        
(Eslec BX-1 manufactured by Sekisui                                       
Chemical Co., Ltd.)                                                       
Lubricant                1.6 parts                                        
(heat decomposition temp. = 397° C.)                               
                         by weight                                        
(Unister H481R manufactured by Nippon                                     
Oils &amp; Fats Co., Ltd.)                                                    
Talc                     0.5 parts                                        
                         by weight                                        
Composition No. 6 for back surface layer                                  
Polyvinyl butyral resin  100 parts                                        
(Eslec BX-1 manufactured by Sekisui                                       
                         by weight                                        
Chemical Co., Ltd.)                                                       
Polyisocyanate curing agent                                               
                         40 parts                                         
(Barnock D750 manufactured by Dainippon                                   
                         by weight                                        
Ink and Chemicals, Inc.)                                                  
Lubricant                5 parts                                          
(heat decomposition temp. = 300° C.)                               
                         by weight                                        
(Attrait AS1000 manufactured by Nippon                                    
Mining Co., Ltd.)                                                         
Talc                     1.5 parts                                        
                         by weight                                        
Methyl ethyl ketone/toluene                                               
                         16 parts                                         
(mixing ratio = 1:1)     by weight                                        
Composition No. 7 for back surface layer                                  
Polyvinyl butyral resin  100 parts                                        
(Eslec BX-1 manufactured by Sekisui                                       
                         by weight                                        
Chemical Co., Ltd.)                                                       
Polyisocyanate curing agent                                               
                         40 parts                                         
(Barnock D750 manufactured by Dainippon                                   
                         by weight                                        
Ink and Chemicals, Inc.)                                                  
Lubricant                4 parts                                          
(heat decomposition temp. = 365.6° C.)                             
                         by weight                                        
(Nonion OP-85R manufactured by Nippon                                     
Oils &amp; Fats Co., Ltd.)                                                    
Lubricant                1 part                                           
(heat decomposition temp. = 190° C.)                               
                         by weight                                        
(Plysurf A208S manufactured by Dai-Ichi                                   
Kogyo Seiyaku Co., Ltd.)                                                  
Silica                   1.5 parts                                        
                         by weight                                        
Methyl ethyl ketone/toluene                                               
                         16 parts                                         
(mixing ratio = 1:1)     by weight                                        
Composition No. 8 for back surface layer (for                             
comparison)                                                               
Polyvinyl butyral resin  100 parts                                        
(Eslec BX-1 manufactured by Sekisui                                       
                         by weight                                        
Chemical Co., Ltd.)                                                       
Lubricant                1.6 parts                                        
(heat decomposition temp. = 190° C.)                               
                         by weight                                        
(Plysurf A208S manufactured by Dai-Ichi                                   
Kogyo Seiyaku Co., Ltd.)                                                  
Talc                     0.5 parts                                        
                         by weight                                        
Composition No. 9 for back surface layer (for                             
comparison)                                                               
Polyvinyl butyral resin  100 parts                                        
(Eslec BX-1 manufactured by Sekisui                                       
                         by weight                                        
Chemical Co., Ltd.)                                                       
Polyisocyanate curing agent                                               
                         40 parts                                         
(Barnock D750 manufactured by Dainippon                                   
                         by weight                                        
Ink and Chemicals, Inc.)                                                  
Lubricant                5 parts                                          
(heat decomposition temp. = 190° C.)                               
                         by weight                                        
(Plysurf A208S manufactured by Dai-Ichi                                   
Kogyo Seiyaku Co., Ltd.)                                                  
Talc                     1.5 parts                                        
                         by weight                                        
Methyl ethyl ketone/toluene                                               
                         16 parts                                         
(mixing ratio = 1:1)     by weight                                        
______________________________________                                    
 
    
     Further, the following compositions for a recording agent layer were prepared according to the following formulations. 
     
         ______________________________________                                    
Composition No. 1 for recording agent layer                               
Paraffin wax              10 parts                                        
                          by weight                                       
Carnauba wax              10 parts                                        
                          by weight                                       
Ethylene/vinyl acetate copolymer                                          
                          1 part                                          
(Sumitate HC-10 manufactured by                                           
                          by weight                                       
Sumitomo Chemical Co., Ltd.)                                              
Carbon black              2 parts                                         
(Seast 3 manufactured by Tokai Denkyoku                                   
                          by weight                                       
Co., Ltd.                                                                 
Composition No. 2 for recording agent layer                               
Disperse dye              4 parts                                         
(Kayaset Blue 714 manufactured by                                         
                          by weight                                       
Nippon Kayaku Co., Ltd.                                                   
Polyvinyl butyral resin   4.3 parts                                       
(Eslec BX-1 manufactured by Sekisui                                       
                          by weight                                       
Chemical Co., Ltd.)                                                       
Methyl ethyl ketone/toluene                                               
                          80 parts                                        
(mixing ratio = 1:1)      by weight                                       
Isobutanol                10 parts                                        
                          by weight                                       
______________________________________                                    
 
    
     Then, the above-described compositions for a back surface layer and compositions for a recording agent layer were used to form a back surface layer on one surface of a 4.5 μm-thick polyethylene terephthalate film (Lumirror Manufactured by Toray Industries, Inc.) with a recording agent layer being formed on the other surface of the polyethylene terephthalate film to provide 18 thermal transfer sheets (samples 1 to 18) listed in Table 1. 
     In this case, the back surface layer was formed by coating the composition for a back surface layer by means of a wire bar coater (coverage: 1.0 g/m 2 ) and drying the coating with warm air. When the composition contained a curing agent, the coated film was allowed to stand in an atmosphere of 60° C. until the residual isocyanate does not remain any more to form a crosslinked coating. 
     The recording agent layer comprising a hot-melt ink was formed by coating the composition No. 1 for a recording agent layer in a hot-melt form at 130° C. by roll coating (coverage: 4.0 g/m 2 ). The recording layer containing a sublimation dye was formed by coating the composition No. 2 for a recording agent layer by means of a wire bar coater (coverage: 1.0 g/m 2 ) and drying the coating with warm air. 
     Then, printing was effected on individual thermal transfer sheets thus prepared under the following conditions to evaluate the state of abrasion of the surface protective film of the thermal head. The results of evaluation are given in Table 1. 
     
         ______________________________________                                    
(Printing conditions for samples 1 to 9)                                  
Line period             12      msec                                      
Pulse width             3       msec                                      
Platen pressure         4       kg                                        
Printing travel distance                                                  
                        30      km                                        
(Printing conditions for samples 10 to 18)                                
Line period             16      msec                                      
Pulse width             8       msec                                      
Platen pressure         4       kg                                        
Printing travel distance                                                  
                        3       km                                        
______________________________________                                    
 
    
     
                       TABLE 1                                                     
______________________________________                                    
        Composition                                                       
Thermal for back     Composition                                          
                                State of                                  
transfer                                                                  
        surface      for record-                                          
                                abrasion of                               
sheet   layer        ing layer  thermal head                              
______________________________________                                    
Sample 1                                                                  
        1            1          ◯                             
Sample 2                                                                  
        2            1          ◯                             
Sample 3                                                                  
        3            1          ◯                             
Sample 4                                                                  
        4            1          ◯                             
Sample 5                                                                  
        5            1          ◯                             
Sample 6                                                                  
        6            1          ◯                             
Sample 7                                                                  
        7            1          Δ                                   
Sample 8                                                                  
        8            1          x                                         
Sample 9                                                                  
        9            1          x                                         
Sample 10                                                                 
        1            2          ◯                             
Sample 11                                                                 
        2            2          ◯                             
Sample 12                                                                 
        3            2          ◯                             
Sample 13                                                                 
        4            2          ◯                             
Sample 14                                                                 
        5            2          ◯                             
Sample 15                                                                 
        6            2          ◯                             
Sample 16                                                                 
        7            2          Δ                                   
Sample 17                                                                 
        8            2          x                                         
Sample 18                                                                 
        9            2          x                                         
______________________________________                                    
 
    
     (Evaluation criteria) 
     In the observation of the :surface under an optical microscope, 
     ◯ . . . no abrasion observed, 
     Δ . . . abrasion somewhat observed, and 
     X . . . significant abrasion observed. 
     As is apparent from Table 1, when printing was effected by using thermal transfer sheets provided with a back surface layer containing a lubricant having a heat decomposition temperature of 200° C. or above (samples 1 to 7 and 10 to 16), substantially no adverse effect of the thermal transfer sheet on the thermal head was observed. 
     By contrast, when printing was effected by using thermal transfer sheets (samples 8, 9, 17 and 18) not containing a lubricant having a heat decomposition temperature of 200° C. or above, the abrasion of the thermal head was observed. These results clearly demonstrate the effect of the present invention. 
     As is apparent from the foregoing description, according to the present invention, since at least one lubricant having a heat decomposition temperature of 200° C. or above is contained in the back surface layer of the thermal transfer sheet, there is no possibility that the lubricant is heat-decomposed by heat applied by a thermal head when printing or formation of an image is effected by heating the thermal transfer sheet from its back surface layer side by means of a thermal head, so that the deterioration of the surface protective film of the thermal head is prevented, which enables the abrasion of the thermal head to be reduced. 
     EXAMPLE B1 
     
         ______________________________________                                    
Composition for back surface layer:                                       
______________________________________                                    
Polyvinyl butyral resin  2.2     parts                                    
(Eslec BX-1 manufactured by Sekisui                                       
Chemical Co., Ltd.)                                                       
Polyisocyanate           6.8     parts                                    
(Barnock D750 manufactured by Dainippon                                   
Ink and Chemicals, Inc.)                                                  
Phosphoric ester surfactant                                               
                         1.6     parts                                    
(Plysurf A208S manufactured by Dai-Ichi                                   
Kogyo Seiyaku Co., Ltd.)                                                  
Triethanolamine          9.5     parts                                    
Talc                     0.4     part                                     
(Microace L-1 manufactured by Nippon                                      
Talc Co., Ltd.)                                                           
Phosphoric ester sodium salt                                              
                         0.6     part                                     
(Dispersant for talc; Phosphanol RD720                                    
manufactured by Toho Chemical Industry                                    
Co., Ltd.)                                                                
Toluene                  35.4    parts                                    
Methyl ethyl ketone      53.0    parts                                    
______________________________________                                    
 
    
     The above-described composition was coated on one surface of a PET substrate sheet (4.5 μm; manufactured by Diafoil Co., Ltd.) by means of a wire bar to a thickness of 1.0 μm on a dry basis, and the coating was dried with warm air and further heated in an oven at 60° C. for 2 days to effect a curing treatment, thereby forming a back surface layer. 
     The following composition for forming a dye layer was coated on the surface of the substrate sheet remote from the back surface layer by gravure printing to a thickness of 1.0 g/m 2  on a dry basis, and the coating was dried to provide a thermal transfer sheet of the present invention. 
     
         ______________________________________                                    
Composition for forming dye layer:                                        
______________________________________                                    
C.I. Solvent Blue 22  5.50 parts                                          
Acetoacetal resin     3.00 parts                                          
Methyl ethyl ketone   22.54 parts                                         
Toluene               68.18 parts                                         
______________________________________                                    
 
    
     EXAMPLES B2 to B4 COMPARATIVE EXAMPLES B1 and B2 
     The procedure of Example B1 was repeated to provide thermal transfer sheets of the present invention and comparative thermal transfer sheets (the thickness of the back surface layer in all the thermal transfer sheets being 1.0 μm), except that compositions listed in the following Table 2 was used instead of the composition for a back surface layer used in Example B1. 
     
                                           TABLE 2                                 
__________________________________________________________________________
                Composition in Each Example                               
                (pt.wt.)                                                  
                              Comp.                                       
                                  Comp.                                   
Components      Ex.B2                                                     
                     Ex.B3                                                
                         Ex.B4                                            
                              Ex.B1                                       
                                  Ex.B2                                   
__________________________________________________________________________
Polyvinyl butyral resin                                                   
                2.2  2.2 2.2  2.2 2.2                                     
(Eslec BX-1 manufactured                                                  
by Sekisui Chemical Co.,                                                  
Ltd.)                                                                     
Polyisocyanate (Barnock                                                   
                6.8  6.8 6.8  6.8 6.8                                     
D750 manufactured by                                                      
Dainippon Ink and                                                         
Chemicals, Inc.)                                                          
Phosphoric ester                                                          
                1.6  1.6 --   1.6 --                                      
surfactant (Plysurf A208S                                                 
manufactured by Dai-Ichi                                                  
Kogyo Seiyaku Co., Ltd.)                                                  
Phosphoric ester                                                          
                --   --  1.6  --  --                                      
surfactant(Phosphanol                                                     
RS710 manufactured by Toho                                                
Chemical Industry Co.,                                                    
Ltd.)                                                                     
Triethanolamine --   --  9.5  --  --                                      
Diethanolamine  8.0  --  --   --  --                                      
Magnesium hydroxide                                                       
                --   0.3 --   --  --                                      
(Kisuma 5A manufactured by                                                
Kyowa Chemical Industry,                                                  
Co., Ltd.)                                                                
Talc (Microace L-1                                                        
                0.4  0.4 0.4  0.4 0.4                                     
manufactured by Nippon                                                    
Talc Co., Ltd.)                                                           
Phosphoric ester sodium                                                   
                0.6  0.6 0.6  0.6 2.2                                     
salt (Phosphanol RD720                                                    
manufactured by Toho                                                      
Chemical Industry Co.,                                                    
Ltd.)                                                                     
Toluene         35.4 35.4                                                 
                         35.4 35.4                                        
                                  35.4                                    
Methyl ethyl ketone                                                       
                53.0 53.0                                                 
                         53.0 53.0                                        
                                  53.0                                    
__________________________________________________________________________
 
    
     The above-described thermal transfer sheet was put on a conventional thermal transfer image receiving sheet, and a transfer was effected by using a transfer recording device under the following conditions to examine the fusion between the thermal head and the thermal transfer sheet, the occurrence of a wrinkle and the migration of the dye (60°C., 17 g/m 2 , 3 days). The results are given in the following Table 3. 
     
         ______________________________________                                    
Transfer conditions:                                                      
______________________________________                                    
Pulse width     1           msec                                          
Recording period                                                          
                2.0         ms/line                                       
Recording energy                                                          
                3.0         J/cm.sup.2                                    
______________________________________                                    
 
    
     
                       TABLE 3                                                     
______________________________________                                    
           Results of Evaluation                                          
             Ex.    Ex.    Ex.  Ex.  Comp. Comp.                          
Evaluation Item                                                           
             B1     B2     B3   B4   Ex.B1 Ex.B2                          
______________________________________                                    
Occurrence of fusion                                                      
             ◯                                                
                    ◯                                         
                           ◯                                  
                                ◯                             
                                     ◯                        
                                           X                              
and wrinkle                                                               
Migration of dye                                                          
             ◯                                                
                    ◯                                         
                           ◯                                  
                                ◯                             
                                     ◯                        
                                           Δ                        
Abrasion of protective                                                    
film of thermal head                                                      
             ◯                                                
                    ◯                                         
                           ◯                                  
                                ◯                             
                                     X     ◯                  
______________________________________                                    
 
    
     
         ______________________________________                                    
Evaluation Method:                                                        
______________________________________                                    
Occurrence of fusion                                                      
                Observed with the naked eye:                              
and wrinkle     ◯: Neither fusion nor wrinkle                 
                occurred                                                  
                X: Fusion or wrinkle                                      
                significantly occurred                                    
Migration of dye                                                          
                Observed with the naked eye:                              
                ◯: No migration occurred                      
                Δ: Migration somewhat                               
                occurred                                                  
                X: Migration significantly                                
                occurred                                                  
Abrasion of protective                                                    
                Solid printing was effected on                            
film of thermal 10000 sheets by using a                                   
head            commercially available video                              
                printer (VY-200 manufactured by                           
                Hitachi, Ltd.), and observation                           
                was made on dropout and                                   
                unevenness on the printed face                            
                with the naked eye to judge the                           
                abrasion of the protective film                           
                of the thermal head:                                      
                ◯: Neither dropout nor lack                   
                of evenness on the printed                                
                face observed                                             
                X: Dropout or lack of evenness                            
                on the printed face observed                              
______________________________________                                    
 
    
     As described above, according to the present invention, when a phosphoric ester surfactant and an alkaline substance are added to the back surface layer of the thermal transfer sheet, even though the phosphoric ester surfactant is decomposed by heat applied by the thermal head to produce an acid radical, since the acid radical is neutralized with the alkaline substance coexisting in the system, there occurs neither corrosion nor abrasion of the thermal head attributable to the occurrence of the acid radical. Further, according to a preferred embodiment, the adoption of a particular binder can provide a thermal transfer sheet having good heat resistance and back surface layer which is excellent in the travelling of the thermal head and gives rise to neither gathering of refuse on the thermal head nor abrasion of the thermal head. 
     EXAMPLE C1 
     
         ______________________________________                                    
Composition for back surface layer:                                       
______________________________________                                    
Polyvinyl butyral resin   22 parts                                        
(Eslec BX-1 manufactured by Sekisui                                       
Chemical Co., Ltd.)                                                       
Polyisocyanate            65 parts                                        
(Barnock D750 manufactured by Dainippon                                   
Ink and Chemicals, Inc.)                                                  
Lubricant                 10 parts                                        
(Nonion OP-85R manufactured by Nippon                                     
Oils &amp; Fats Co., Ltd.)                                                    
Talc                      3 parts                                         
(Mohs hardness: 1, particle diameter:                                     
4 μm, white powder)                                                    
Solvent (MEK/toluene = 1/1)                                               
                          1,000 parts                                     
______________________________________                                    
 
    
     The above-described composition was coated on one surface of a PET substrate sheet (6.0 μm; manufactured by Diafoil Co., Ltd.) by means of a wire bar to a thickness of 1.0 μm on a dry basis, and the coating was dried with warm air and further heated in an oven at 60° C. for 5 days to form a back surface layer. 
     Then, the following composition for forming a dye layer was coated on the surface of the substrate sheet remote from the back surface layer by gravure printing so that the thickness of the coating on a dry basis was 1.0 g/m 2 , and the coating was dried to provide a thermal transfer sheet of the present invention. 
     
         ______________________________________                                    
Composition for forming dye layer:                                        
______________________________________                                    
C.I. Solvent Blue 22  5.50 parts                                          
Acetoacetal resin     3.00 parts                                          
Methyl ethyl ketone   22.54 parts                                         
Toluene               68.18 parts                                         
______________________________________                                    
 
    
     EXAMPLE C2 
     The procedure of Example C1 was repeated to provide a thermal transfer sheet of the present invention, except that a composition according to the following formulation was used instead of the composition used in Example C1. 
     
         ______________________________________                                    
Composition for back surface layer:                                       
______________________________________                                    
Polyvinyl butyral resin   22 parts                                        
(Eslec BX-1 manufactured by Sekisui                                       
Chemical Co., Ltd.)                                                       
Polyisocyanate            65 parts                                        
(Barnock D750 manufactured by Dainippon                                   
Ink and Chemicals, Inc.)                                                  
Lubricant                 10 parts                                        
(Nonion OP-85R manufactured by Nippon                                     
Oils &amp; Fats Co., Ltd.)                                                    
Kaolin                    3 parts                                         
(Mohs hardness: 2, particle diameter:                                     
4 μm, white powder)                                                    
Solvent (MEK/toluene = 1/1)                                               
                          1,000 parts                                     
______________________________________                                    
 
    
     EXAMPLE C3 
     The procedure of Example C1 was repeated to provide a thermal transfer sheet of the present invention, except that a composition according to the following formulation was used instead of the composition used in Example C1. 
     
         ______________________________________                                    
Composition for back surface layer:                                       
______________________________________                                    
Polyvinyl butyral resin  22 parts                                         
(Eslec BX-1)                                                              
Polyisocyanate           65 parts                                         
(Barnock D750 )                                                           
Lubricant                10 parts                                         
(Plysurf A2085)                                                           
Brucite                  3 parts                                          
(Mohs hardness: 2.5, particle diameter:                                   
3 μm, white powder)                                                    
Solvent (MEK/toluene = 1/1)                                               
                         1,000 parts                                      
______________________________________                                    
 
    
     EXAMPLE C4 
     The procedure of Example C1 was repeated to provide a thermal transfer sheet of the present invention, except that a composition according to the following formulation was used instead of the composition for forming a dye layer used in Example C1. 
     
         ______________________________________                                    
Wax composition:                                                          
______________________________________                                    
Carbon black             15 parts                                         
Ethylene/vinyl acetate copolymer                                          
                         8 parts                                          
Paraffin wax             50 parts                                         
Carnauba wax             25 parts                                         
______________________________________                                    
 
    
     The components were kneaded at 120° C. for 4 hr in an attritor to provide a composition which was then coated by hot-melt coating to form a composition layer. 
     COMPARATIVE EXAMPLE C1 
     The procedure of Example C1 was repeated to provide a comparative thermal transfer sheet, except that a composition according to the following formulation was used instead of the composition used in Example C1. 
     
         ______________________________________                                    
Composition for back surface layer:                                       
______________________________________                                    
Polyvinyl butyral resin  22 parts                                         
(Eslec BX-1)                                                              
Polyisocyanate           65 parts                                         
(Barnock D750)                                                            
Lubricant                10 parts                                         
(Nonion OP-85R)                                                           
Calcite                  3 parts                                          
(Mohs hardness: 3, particle diameter:                                     
4 μm, white powder)                                                    
Solvent (MEK/toluene = 1/1)                                               
                         1,000 parts                                      
______________________________________                                    
 
    
     The procedure of Example C1 was repeated to provide a comparative thermal transfer sheet, except that a composition according to the following formulation was used instead of the composition used in Example C1. 
     
         ______________________________________                                    
Composition for back surface layer:                                       
______________________________________                                    
Polyvinyl butyral resin  22 parts                                         
(Eslec BX-1)                                                              
Polyisocyanate           65 parts                                         
(Barnock D750)                                                            
Lubricant                10 parts                                         
(Nonion OP-85R)                                                           
Quartz                   3 parts                                          
(Mohs hardness: 7, particle diameter:                                     
4 μm, white powder)                                                    
Solvent (MEK/toluene = 1/1)                                               
                         1,000 parts                                      
______________________________________                                    
 
    
     The above-described thermal transfer sheet was put on a conventional thermal transfer image receiving sheet, a transfer was continuously effected by 1,000 m by means of a thermal transfer recording device under the following conditions, and the state of the thermal head, travelling of the thermal head and quality of the formed image were observed. The results are given in the following Table 4. 
     
         ______________________________________                                    
Transfer conditions:                                                      
______________________________________                                    
Pulse width     1           msec                                          
Recording period                                                          
                2.0         ms/line                                       
Recording energy                                                          
                3.0         J/cm.sup.2                                    
______________________________________                                    
 
    
     
                       TABLE 4                                                     
______________________________________                                    
Abrasion of Thermal Head                                                  
      Printing  Non-printing                                              
                           Travelling of                                  
                                     Image                                
      portion   portion    thermal head                                   
                                     Quality                              
______________________________________                                    
Ex. C1                                                                    
      ◯                                                       
                ◯                                             
                           good      good                                 
                           (no wrinkle)                                   
Ex. C2                                                                    
      ◯                                                       
                ◯                                             
                           good      good                                 
                           (no wrinkle)                                   
Ex. C3                                                                    
      Δ   ◯                                             
                           good      good                                 
                           (no wrinkle)                                   
Ex. C4                                                                    
      ◯                                                       
                ◯                                             
                           good      good                                 
                           (no wrinkle)                                   
Comp. X         Δ    good (wrinkle                                  
                                     somewhat                             
Ex. C1                     somewhat  poor                                 
                           occurred)                                      
Comp- X         X          poor (sound of                                 
                                     poor                                 
Ex. C2                     travel of                                      
                           thermal head                                   
                           generated)                                     
______________________________________                                    
 
    
     
         ______________________________________                                    
Evaluation Method:                                                        
______________________________________                                    
Abrasion of thermal                                                       
                Measured and evaluated                                    
head:           visually and with a surface                               
                roughness tester:                                         
                ◯: No abrasion occurred                       
                Δ: Abrasion somewhat occurred                       
                X: Significant abrasion mark                              
                observed                                                  
Travelling of thermal                                                     
                Observed with the naked eye.                              
head:                                                                     
Image quality:  Observed with the naked eye.                              
______________________________________                                    
 
    
     As described above, according to the present invention, the presence of particles having a Mohs hardness of less than 3 in the back surface layer can provide a thermal transfer sheet which is excellent in both heat resistance and lubricity and satisfactory in the travelling of the thermal head, can provide a good image and gives rise to no abrasion of the thermal head. 
     EXAMPLE D 
     The procedure of Example B1 was repeated to provide thermal transfer sheets of respective Examples, except that the following compositions were used instead of the composition for a back surface layer used in Example B1. 
     EXAMPLE D1 
     
         ______________________________________                                    
Polyvinyl butyral resin 40.0    parts                                     
(Eslec BX-1 manufactured by Sekisui                                       
Chemical Co., Ltd.)                                                       
Phosphoric ester surfactant                                               
                        1.0     part                                      
(Plysurf A208S manufactured by Dai-Ichi                                   
Kogyo Seiyaku Co., Ltd.)                                                  
Talc                    0.4     part                                      
(Microace P-3 manufactured by Nippon                                      
Talc Co., Ltd.)                                                           
Mohs hardness: 1                                                          
Triethanolamine         6.0     parts                                     
______________________________________                                    
 
    
     EXAMPLE D2 
     
         ______________________________________                                    
Polyvinyl butyral resin  2.2     parts                                    
(Eslec BX-1 manufactured by Sekisui                                       
Chemical Co., Ltd.)                                                       
Polyisocyanate           6.8     parts                                    
(Barnock D750 manufactured by Dainippon                                   
Ink and Chemicals, Inc.)                                                  
Phosphoric ester surfactant                                               
                         1.6     parts                                    
(Plysurf A208S manufactured by Dai-Ichi                                   
Kogyo Seiyaku Co., Ltd.)                                                  
Talc                     0.4     part                                     
(Microace P-3 manufactured by Nippon                                      
Talc Co., Ltd.)                                                           
Mohs hardness: 1                                                          
Magnesium hydroxide      0.3     part                                     
(Kisuma 5A manufactured by Kyowa                                          
Chemical Industry, Co., Ltd.)                                             
______________________________________                                    
 
    
     EXAMPLE D3 
     
         ______________________________________                                    
Polyvinyl butyral resin   2.2     parts                                   
(Eslec BX-1 manufactured by Sekisui                                       
Chemical Co., Ltd.)                                                       
Polyisocyanate            6.8     parts                                   
(Barnock D750 manufactured by Dainippon                                   
Ink and Chemicals, Inc.)                                                  
Phosphoric ester surfactant                                               
                          1.6     parts                                   
(Nikkol DDP-2 (manufactured by Nikko                                      
Chemicals Co., Ltd.)                                                      
Talc                      0.4     part                                    
(Microace P-3 manufactured by Nippon                                      
Talc Co., Ltd.)                                                           
Mohs hardness: 1                                                          
Magnesium hydroxide       0.3     part                                    
(Kisuma 5A manufactured by Kyowa                                          
Chemical Industry, Co., Ltd.)                                             
______________________________________                                    
 
    
     EXAMPLE D4 
     
         ______________________________________                                    
Polyvinyl butyral resin  2.2     parts                                    
(Eslec BX-1 manufactured by Sekisui                                       
Chemical Co., Ltd.)                                                       
Polyisocyanate           6.8     parts                                    
(Barnock D750 manufactured by Dainippon                                   
Ink and Chemicals, Inc.)                                                  
Phosphoric ester surfactant                                               
                         1.6     parts                                    
(Plysurf A208S manufactured by Dai-Ichi                                   
Kogyo Seiyaku Co., Ltd.)                                                  
Kaolin                   0.4     part                                     
(Attagel 50 manufactured by Tsuchiya                                      
Kaolin Co., Ltd.)                                                         
Mohs hardness: 0.4                                                        
Magnesium hydroxide      0.3     part                                     
(Kisuma 5A manufactured by Kyowa                                          
Chemical Industry, Co., Ltd.)                                             
______________________________________                                    
 
    
     EXAMPLE D5 
     
         ______________________________________                                    
Polyvinyl butyral resin  2.2     parts                                    
(Eslec BX-1 manufactured by Sekisui                                       
Chemical Co., Ltd.)                                                       
Polyisocyanate           6.8     parts                                    
(Barnock D750 manufactured by Dainippon                                   
Ink and Chemicals, Inc.)                                                  
Phosphoric ester surfactant                                               
                         1.6     parts                                    
(Plysurf A208S manufactured by Dai-Ichi                                   
Kogyo Seiyaku Co., Ltd.)                                                  
Clay                     0.4     part                                     
(ASP-200 manufactured by Tsuchiya                                         
Kaolin Co., Ltd.)                                                         
Mohs hardness: 2                                                          
Magnesium hydroxide      0.3     part                                     
(Kisuma 5A manufactured by Kyowa                                          
Chemical Industry, Co., Ltd.)                                             
______________________________________                                    
 
    
     EXAMPLE D6 
     
         ______________________________________                                    
Polyvinyl butyral resin   2.2     parts                                   
(Eslec BX-1 manufactured by Sekisui                                       
Chemical Co., Ltd.)                                                       
Polyisocyanate            6.8     parts                                   
(Barnock D750 manufactured by Dainippon                                   
Ink and Chemicals, Inc.)                                                  
Phosphoric ester surfactant                                               
                          1.6     parts                                   
(Plysurf A208S manufactured by Dai-Ichi                                   
Kogyo Seiyaku Co., Ltd.)                                                  
Kaolin                    0.4     part                                    
(Attagel 50 manufactured by Tsuchiya                                      
Kaolin Co., Ltd.)                                                         
Mohs hardness: 1                                                          
Hydrotalcite              0.3     part                                    
(DHT-4A manufactured by Kyowa Chemical                                    
Industry, Co., Ltd.)                                                      
______________________________________                                    
 
    
     Reference Example D1 
     
         ______________________________________                                    
Polyvinyl butyral resin  40.0    parts                                    
(Eslec BX-1 manufactured by Sekisui                                       
Chemical Co., Ltd.)                                                       
Phosphoric ester surfactant                                               
                         1.0     parts                                    
(Plysurf A208S manufactured by Dai-Ichi                                   
Kogyo Seiyaku Co., Ltd.)                                                  
Talc                     0.4     part                                     
(Microace P-3 manufactured by Nippon                                      
Talc Co., Ltd.)                                                           
Mohs hardness: 1                                                          
______________________________________                                    
 
    
     Reference Example D2 
     
         ______________________________________                                    
Polyvinyl butyral resin  2.2     parts                                    
(Eslec BX-1 manufactured by Sekisui                                       
Chemical Co., Ltd.)                                                       
Polyisocyanate           6.8     parts                                    
(Barnock D750 manufactured by Dainippon                                   
Ink and Chemicals, Inc.)                                                  
Phosphoric ester surfactant                                               
                         1.6     parts                                    
(Plysurf A208S manufactured by Dai-Ichi                                   
Kogyo Seiyaku Co., Ltd.)                                                  
Kaolin                   0.4     part                                     
(Attagel 50 manufactured by Tsuchiya                                      
Kaolin Co., Ltd.)                                                         
Mohs hardness: 1                                                          
______________________________________                                    
 
    
     COMPARATIVE EXAMPLE D1 
     
         ______________________________________                                    
Polyvinyl butyral resin  2.2     parts                                    
(Eslec BX-1 manufactured by Sekisui                                       
Chemical Co., Ltd.)                                                       
Polyisocyanate           6.8     parts                                    
(Barnock D750 manufactured by Dainippon                                   
Ink and Chemicals, Inc.)                                                  
Phosphoric ester surfactant                                               
                         1.6     parts                                    
(Plysurf A208S manufactured by Dai-Ichi                                   
Kogyo Seiyaku Co., Ltd.)                                                  
Silica                   0.4     part                                     
(Nipsil HD manufactured by Nippon                                         
Silica Industrial Co., Ltd.)                                              
Mohs hardness: 7                                                          
______________________________________                                    
 
    
     COMPARATIVE EXAMPLE D2 
     
         ______________________________________                                    
Polyvinyl butyral resin  2.2    parts                                     
(Eslec BX-1 manufactured by Sekisui                                       
Chemical Co., Ltd.)                                                       
Polyisocyanate           6.8    parts                                     
(Barnock D750 manufactured by Dainippon                                   
Ink and Chemicals, Inc.)                                                  
Phosphoric ester surfactant                                               
                         1.6    parts                                     
(Plysurf A208S manufactured by Dai-Ichi                                   
Kogyo Seiyaku Co., Ltd.)                                                  
SnO.sub.2                0.4    part                                      
(SN-100P manufactured by Ishihara                                         
Sangyo Kaisha Co., Ltd.)                                                  
Mohs hardness: 6.5                                                        
______________________________________                                    
 
    
     Results of Evaluation 
     
                       TABLE 5                                                     
______________________________________                                    
                    Filler  Fusion      Abra-                             
Iso-                (Mohs   and   Dye   sion of                           
cya        Neutral- hard-   wrin- migra-                                  
                                        thermal                           
nate       lizer    ness)   kle   tion  head                              
______________________________________                                    
Ex.                                                                       
No.                                                                       
D1     free    tri-     talc  ◯                               
                                    Δ                               
                                          ◯                   
               ethanol- (1)                                               
               amine                                                      
D2     added   Mg(OH).sub.2                                               
                        talc  ◯                               
                                    ◯                         
                                          ◯                   
                        (1)                                               
D3     added   Mg(OH).sub.2                                               
                        talc  ◯                               
                                    ◯                         
                                          ◯                   
                        (1)                                               
D4     added   Mg(OH).sub.2                                               
                        kaolin                                            
                              ◯                               
                                    ◯                         
                                          ◯                   
                        (1)                                               
D5     added   Mg(OH).sub.2                                               
                        clay  ◯                               
                                    ◯                         
                                          ◯                   
                        (2)                                               
D6     added   hydro-   kaolin                                            
                              ◯                               
                                    ◯                         
                                          ◯                   
               talcite  (1)                                               
Re-                                                                       
fer-                                                                      
rence                                                                     
Ex.                                                                       
No.                                                                       
D1     free.   free     talc  Δ                                     
                                    Δ                               
                                          Δ                         
                        (1)                                               
D2     added   free     kaolin                                            
                              ◯                               
                                    ◯                         
                                          Δ                         
                        (1)                                               
Comp.                                                                     
Ex.                                                                       
No.                                                                       
D1     added   free     silica                                            
                              ◯                               
                                    ◯                         
                                          x                               
                        (7)                                               
D2     added   free     SnO.sub.2                                         
                              ◯                               
                                    ◯                         
                                          x                               
                        (6.5)                                             
______________________________________                                    
 
    
     
         ______________________________________                                    
Evaluation Method:                                                        
______________________________________                                    
Occurrence of fusion                                                      
                Observed with the naked eye:                              
and wrinkle     ◯: Neither fusion nor wrinkle                 
                occurred                                                  
                Δ: fusion nor wrinkle somewhat                      
                occurred.                                                 
                X: Fusion nor wrinkle                                     
                significantly occurred                                    
Migration of dye                                                          
                Observed with the naked eye:                              
                ◯: No migration occurred                      
                Δ: Migration somewhat                               
                occurred                                                  
                X: Migration significantly                                
                occurred                                                  
Abrasion of protective                                                    
                Solid printing was effected on                            
film of thermal 10000 sheets by using a                                   
head            commercially available video                              
                printer (VY-200 manufactured                              
                by Hitachi, Ltd.), and                                    
                observation was made on                                   
                dropout and unevenness on the                             
                printed face with the naked                               
                eye to judge the abrasion of                              
                the protective film of the                                
                thermal head:                                             
                ◯: Neither dropout nor lack                   
                of evenness on the printed                                
                face observed                                             
                Δ: Dropout or lack of evenness                      
                somewhat observed                                         
                X: Dropout or lack of evenness                            
                on the printed face                                       
                observed                                                  
______________________________________                                    
 
    
     EXAMPLE E 
     The procedure of Example B1 was repeated to provide thermal transfer sheets of respective Examples, except that the following composition was used instead of the composition for a back surface layer used in Example B1. 
     EXAMPLE E1 
     
         ______________________________________                                    
Polyvinyl butyral resin 40.0    parts                                     
(Eslec BX-1 manufactured by Sekisui                                       
Chemical Co., Ltd.)                                                       
Lubricant               1.0     part                                      
(Nonion OP-85R manufactured by Nippon                                     
Oils &amp; Fats Co., Ltd.)                                                    
Heat decomposition temp.: 365.6° C.                                
Talc                    0.4     part                                      
(Microace P-3 manufactured by Nippon                                      
Talc Co., Ltd.)                                                           
Mohs hardness: 1                                                          
______________________________________                                    
 
    
     EXAMPLE E2 
     
         ______________________________________                                    
Polyvinyl butyral resin  2.2     parts                                    
(Eslec BX-1 manufactured by Sekisui                                       
Chemical Co., Ltd.)                                                       
Polyisocyanate           6.8     parts                                    
(Barnock D750 manufactured by Dainippon                                   
Ink and Chemicals, Inc.)                                                  
Lubricant                1.6     part                                     
(Nonion OP-85R manufactured by Nippon                                     
Oils &amp; Fats Co., Ltd.)                                                    
Heat decomposition temp.: 365.6° C.                                
Talc                     0.4     part                                     
(Microace P-3 manufactured by Nippon                                      
Talc Co., Ltd.)                                                           
Mohs hardness: 1                                                          
______________________________________                                    
 
    
     EXAMPLE E3 
     
         ______________________________________                                    
Polyvinyl butyral resin  2.2     parts                                    
(Eslec BX-1 manufactured by Sekisui                                       
Chemical Co., Ltd.)                                                       
Polyisocyanate           6.8     parts                                    
(Barnock D750 manufactured by Dainippon                                   
Ink and Chemicals, Inc.)                                                  
Lubricant                1.6     part                                     
(Attrait AS100 manufactured by Nippon                                     
Mining Co., Ltd.)                                                         
Heat decomposition temp.: 300° C.                                  
Talc                     0.4     part                                     
(Microace P-3 manufactured by Nippon                                      
Talc Co., Ltd.)                                                           
Mohs hardness: 1                                                          
______________________________________                                    
 
    
     EXAMPLE E4 
     
         ______________________________________                                    
Polyvinyl butyral resin  2.2     parts                                    
(Eslec BX-1 manufactured by Sekisui                                       
Chemical Co., Ltd.)                                                       
Polyisocyanate           6.8     parts                                    
(Barnock D750 manufactured by Dainippon                                   
Ink and Chemicals, Inc.)                                                  
Lubricant                0.8     parts                                    
(Plysurf A208S manufactured by Dai-Ichi                                   
Kogyo Seiyaku Co., Ltd.)                                                  
Heat decomposition temp.: 190° C.                                  
Lubricant                0.8     part                                     
(Unister H381R manufactured by Nippon                                     
Oils &amp; Fats Co., Ltd.)                                                    
Heat decomposition temp.: 401.7° C.                                
Kaolin                   0.4     part                                     
(Attagel 50 manufactured by Tsuchiya                                      
Kaolin Co., Ltd.)                                                         
Mohs hardness: 1                                                          
______________________________________                                    
 
    
     EXAMPLE E5 
     
         ______________________________________                                    
Polyvinyl butyral resin  2.2     parts                                    
(Eslec BX-1 manufactured by Sekisui                                       
Chemical Co., Ltd.)                                                       
Polyisocyanate           6.8     parts                                    
(Barnock D750 manufactured by Dainippon                                   
Ink and Chemicals, Inc.)                                                  
Lubricant                1.6     parts                                    
(Unister H481R manufactured by Nippon                                     
Oils &amp; Fats Co., Ltd.)                                                    
Heat decomposition temp.: 397° C.                                  
Clay                     0.4     part                                     
(ASP-200 manufactured by Tsuchiya                                         
Kaolin Co., Ltd.)                                                         
Mohs hardness: 2                                                          
______________________________________                                    
 
    
     REFERENCE EXAMPLE E1 
     
         ______________________________________                                    
Polyvinyl butyral resin  40.0    parts                                    
(Eslec BX-1 manufactured by Sekisui                                       
Chemical Co., Ltd.)                                                       
Lubricant                1.0     part                                     
(Plysurf A208S manufactured by Dai-Ichi                                   
Kogyo Seiyaku Co., Ltd.)                                                  
Heat decomposition temp.: 190° C.                                  
Talc                     0.4     part                                     
(Microace P-3 manufactured by Nippon                                      
Talc Co., Ltd.)                                                           
Mohs hardness: 1                                                          
______________________________________                                    
 
    
     REFERENCE EXAMPLE E2 
     
         ______________________________________                                    
Polyvinyl butyral resin  2.2     parts                                    
(Eslec BX-1 manufactured by Sekisui                                       
Chemical Co., Ltd.)                                                       
Polyisocyanate           6.8     parts                                    
(Barnock D750 manufactured by Dainippon                                   
Ink and Chemicals, Inc.)                                                  
Lubricant                1.6     parts                                    
(Plysurf A208S manufactured by Dai-Ichi                                   
Kogyo Seiyaku Co., Ltd.)                                                  
Heat decomposition temp.: 190° C.                                  
Kaolin                   0.4     part                                     
(Attagel 50 manufactured by Tsuchiya                                      
Kaolin Co., Ltd.)                                                         
Mohs hardness: 1                                                          
______________________________________                                    
 
    
     COMPARATIVE EXAMPLE E1 
     
         ______________________________________                                    
Polyvinyl butyral resin  2.2     parts                                    
(Eslec BX-1 manufactured by Sekisui                                       
Chemical Co., Ltd.)                                                       
Polyisocyanate           6.8     parts                                    
(Barnock D750 manufactured by Dainippon                                   
Ink and Chemicals, Inc.)                                                  
Lubricant                1.6     parts                                    
(Nikkol DDP-2 (manufactured by Nikko                                      
Chemicals Co., Ltd.)                                                      
Heat decomposition temp.: 190° C.                                  
Silica                   0.4     part                                     
(Nipsil HD manufactured by Nippon                                         
Silica Industrial Co., Ltd.)                                              
Mohs hardness: 7                                                          
______________________________________                                    
 
    
     COMPARATIVE EXAMPLE E2 
     
         ______________________________________                                    
Polyvinyl butyral resin  2.2     parts                                    
(Eslec BX-1 manufactured by Sekisui                                       
Chemical Co., Ltd.)                                                       
Polyisocyanate           6.8     parts                                    
(Barnock D750 manufactured by Dainippon                                   
Ink and Chemicals, Inc.)                                                  
Lubricant                1.6     parts                                    
(Nikkol DDP-2 (manufactured by Nikko                                      
Chemicals Co., Ltd.)                                                      
Heat decomposition temp.: 190° C.                                  
SnO.sub.2                0.4     part                                     
(SN-100P manufactured by Ishihara                                         
Sangyo Kaisha Co., Ltd.)                                                  
Mohs hardness: 6.5                                                        
______________________________________                                    
 
    
     
                       TABLE 6                                                     
______________________________________                                    
          Heat de-                                                        
          composi- Filler  Fusion       Abra-                             
Iso-      tion     (Mohs   and    Dye   sion of                           
cya       temp.    hard-   wrin-  migra-                                  
                                        thermal                           
nate      (°C.)                                                    
                   ness)   kle    tion  head                              
______________________________________                                    
Ex.                                                                       
No.                                                                       
E1    free    365.6    talc  Δ                                      
                                    Δ                               
                                          ◯                   
                       (1)                                                
E2    added   365.6    talc  ◯                                
                                    ◯                         
                                          ◯                   
                       (1)                                                
E3    added   300      talc  ◯                                
                                    ◯                         
                                          ◯                   
                       (1)                                                
E4    added   190      kaolin                                             
                             ◯                                
                                    ◯                         
                                          ◯                   
                       (1)                                                
E5    added   397      clay  ◯                                
                                    ◯                         
                                          ◯                   
                       (2)                                                
Re-                                                                       
fer-                                                                      
rence                                                                     
Ex.                                                                       
No.                                                                       
E1    free.   190      talc  Δ                                      
                                    Δ                               
                                          Δ                         
                       (1)                                                
E2    added   190      kaolin                                             
                             ◯                                
                                    ◯                         
                                          Δ                         
                       (1)                                                
Comp.                                                                     
Ex.                                                                       
No.                                                                       
E1    added   190      silica                                             
                             ◯                                
                                    ◯                         
                                          x                               
                       (7)                                                
E2    added   190      SnO.sub.2                                          
                             ◯                                
                                    ◯                         
                                          x                               
                       (6.5)                                              
______________________________________                                    
 
    
     Evaluation methods and evaluation items are the same as those described above in connection with Table 5.