JP4128683B2 - Printing sheet and printing sheet - Google Patents

Description

【図面の簡単な説明】
【図１】印刷シート例の断面図
【図２】印刷用シート例の断面図
【図３】他の印刷用シート例の平面図
【図４】さらに他の印刷用シート例の断面図
【符号の説明】
１：印刷用シート
１１：保形層 １２：補強基材 １３：微細な孔
２：インク情報層
３：粘着層
３１：点状に分布した粘着層
４：被着体[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a printing sheet excellent in hiding power or reflectance and suitable for forming a management label and the like, and a thermal transfer type printing sheet using the same and excellent in heat resistance.
[0002]
[Prior art]
Conventionally, printing sheets that can be used as management labels in the production process of cathode ray tubes include glass-type green sheets that are provided with ink information containing glass powder and baked by firing. Inorganic powders are retained with polyorganosiloxane. It has been known to add ink information to a shaped sheet (Japanese Patent Application Laid-Open No. 7-334088, Japanese Patent Application No. 8-228667, Japanese Patent No. 2654735, WO 93/07844).
[0003]
However, it has been found that the management label cannot be used until a recycling process for collecting rework parts that can be reused from an adherend such as a cathode ray tube. By the way, in the above-mentioned CRT, the rework parts are collected through a salvage process in which the panel and funnel are separated by dipping in hot nitric acid. In that case, the ink information of the management label given to the CRT disappears, and the management label Rework parts cannot be managed using.
[0004]
[Technical Problem of the Invention]
The present invention provides information on the occasion and adheres to the adherend under heat treatment. The curved surface adherence and the ability to form various kinds of printed sheets necessary for a variety of small-quantity production systems, adherence, etc. Firing that excels in chemical resistance, heat resistance, weather resistance, hiding power, reflectance, etc., such as management labels that can be used effectively from the manufacture of CRT to its salvage while satisfying the advantages such as easy adhesion to the body The issue is to develop a printing sheet that can form a sheet.
[0005]
[Means for solving problems]
The present invention uses at least an inorganic powder, an MQ resin, and a silica melting point depressant, and if necessary, a mixture containing at least one of a silicone rubber and a cellulosic polymer is retained in a sheet form. _It consists of a polymer of monofunctional M units represented by ₃ SiO— (where R is an organic group ) and tetrafunctional Q units represented by Si (O—) ₄ . It comprises 10 to 500 parts by weight of the inorganic powder and 0.1 to 10,000 ppm of the depressant per 100 parts by weight of the MQ resin, and becomes a fired sheet in which silica is sintered by heat treatment. The present invention provides a printing sheet to be printed, and a printing sheet characterized in that the printing sheet is provided with ink information by a thermal transfer method.
[0006]
【The invention's effect】
The printing sheet according to the present invention is flexible and can apply ink information by an appropriate method such as a thermal transfer method to form a wide variety of printing sheets on an occasional basis, and heats them with good adhesion to a curved adherend or the like. It can be easily fixed as a fired sheet in which the imparted information is well preserved under the treatment. Further, the formed fired sheet is formed by changing the MQ resin by firing, and the silica produced by the sintering is strongly sintered through the silica melting point depressant to strongly bind and hold the inorganic powder. It is excellent in weather resistance, hiding power, reflectance, etc., and can be used as a management label that can be effectively used from the manufacture of a cathode ray tube to its salvage, for example.
[0007]
DETAILED DESCRIPTION OF THE INVENTION
The printing sheet according to the present invention comprises at least an inorganic powder, an MQ resin, and a silica melting point depressant, and if necessary, a mixture of at least one of silicone rubber and cellulose-based polymer is retained in a sheet form, A monofunctional M unit represented by the general formula: R ₃ SiO— (where R is an organic group ) and a tetrafunctional Q unit represented by Si (O—) ₄ 10 to 500 parts by weight of the inorganic powder and 0.1 to 10,000 ppm of the depressant are contained per 100 parts by weight of the MQ resin made of a polymer, and a sintered sheet in which silica is sintered by heat treatment is obtained. It has a shape-retaining layer, and the printing sheet is obtained by adding ink information to the shape-retaining layer by a thermal transfer method. An example of the printed sheet is shown in FIG. Reference numeral 1 is a printing sheet, and 2 is ink information. In addition, 3 is an adhesion layer provided as needed, and 4 is an adherend.
[0008]
The printing sheet only needs to have the shape-retaining layer in the form of a sheet, and thus can be formed in an appropriate form. Examples thereof include a form composed of the shape-retaining layer itself (FIG. 1), a form in which the shape-retaining layer 11 is reinforced with the reinforcing base 12 as illustrated in FIG. 2, and a form having an adhesive layer.
[0009]
As shown in FIG. 2, the reinforcing form includes a method in which a shape retaining layer is provided on the reinforcing base, a method in which the reinforcing base is impregnated with the shape retaining layer forming material, a method in which the reinforcing base is interposed in the shape retaining layer, and the like. It may be formed by an appropriate method. As the reinforcing substrate, an appropriate material such as a resin coating layer, a film, a fiber, a cloth, a nonwoven fabric, a metal foil, or a net can be used.
[0010]
The reinforcing substrate may be formed of a material that disappears during heat treatment, such as a polymer made of polyester, polyimide, fluororesin, polyamide, or the like, or formed of a material that does not disappear by heat treatment, such as glass, ceramic, or metal. May be.
[0011]
The inorganic powder used for forming the shape-retaining layer is for improving heat resistance (usually about 500 ° C. or less, preferably about 800 ° C. or less) and forming the ground color of the printed sheet. Accordingly, appropriate materials such as metal powder and ceramic powder can be used. The particle size of the inorganic powder is generally 50 μm or less, especially 0.05 to 20 μm, but is not limited thereto. It is effective to improve the hiding power or reflectivity by adhering an inorganic powder to a thin base such as mica and blending it as a flaky powder.
[0012]
Examples of generally used inorganic powders include white materials such as silica, titania, alumina, zinc white, zirconia, calcium oxide, mica, potassium titanate, and aluminum borate. Also included are metal compounds such as carbonates, nitrates, and sulfates that are oxidized at a temperature lower than the temperature at which the printing sheet is heat-treated to form an oxidized white ceramic. In particular, needle crystals such as potassium titanate and aluminum borate can be preferably used in terms of whiteness and sintering strength.
[0013]
Manganese oxide / alumina, chromium oxide / tin oxide, iron oxide, red cadmium sulfide / selenium sulfide, etc., blue oxide such as cobalt oxide, zirconia / vanadium oxide, chromium oxide / divanadium pentoxide, chromium oxide / cobalt oxide -Black materials such as iron oxide, manganese oxide, chromate and permanganate are also examples of inorganic powders.
[0014]
Furthermore, yellow materials such as zirconium, silicon, praseodymium, vanadium, tin, chromium, titanium, and antimony, green materials such as chromium oxide, cobalt, chromium, alumina, and chromium, and pink materials such as aluminum, manganese, iron, silicon, and zirconium Are also examples of inorganic powders.
[0015]
As the MQ resin, a monofunctional M unit represented by a general formula: R ₃ SiO— known as a tackifier of a silicone-based adhesive and a tetrafunctional represented by Si (O—) ₄ are used. Any suitable polymer comprising a polymer with a Q unit can be used. In the above general formula, R is an organic group such as an aliphatic hydrocarbon group such as a methyl group, an ethyl group or a propyl group, an aromatic hydrocarbon group such as a phenyl group, or an olefin group such as a vinyl group. MQ resins that can be preferably used are excellent in shape retention.
[0016]
As the silica melting point depressant, an appropriate substance capable of lowering the silica melting point can be used. Incidentally, examples thereof include alkali metals such as potassium, sodium and lithium. The alkali metal can be blended in the state of a metal powder or the like, but in the present invention, it is preferable that the alkali metal is dispersed as uniformly as possible in the present invention. Therefore, it can also be blended as a compound that is easily available as fine particles. The form of the alkali metal compound is arbitrary, and may have an appropriate compound form such as a hydroxide or a carbonate.
[0017]
For forming the printing sheet, for example, one or more of inorganic powder, MQ resin, and silica melting point depressant are mixed with an organic solvent or the like, if necessary, using a ball mill, etc. If necessary, it can be carried out by a method of spreading on a support material such as a reinforcing base material or a separator and drying it.
[0018]
In the above, the use ratio of the inorganic powder and the MQ resin is preferably 10 to 500 parts by weight per 100 parts by weight of the MQ resin , from the viewpoints of handleability of the printing sheet, strength of the printing sheet, strength and hiding power of the fired sheet, etc. 20 to 350 parts by weight, particularly 30 to 100 parts by weight of inorganic powder is used.
[0019]
The amount of the silica melting point depressant, from the viewpoint of strength of the fired sheet obtained, Ru is a from 0.1 to 10,000 ppm per MQ resin 100 parts by weight. In other words, the silica melting point depressant is used when the printed sheet is baked at about 400 ° C. or more as described above, and the MQ resin is converted into fine particles of silica due to the burning of organic groups such as methyl groups bonded to silicon. In addition, it serves to lower the melting point of the silica and increase the sintering strength.
[0020]
By the way, when the silica melting point depressant is not blended, the surface hardness based on the pencil hardness of the sintered sheet is about 4H, where the sintering power is poor and the surface is easily destroyed by mechanical impact force and the ink information is easily burned out. However, by adding 4000 ppm of KOH to the printing sheet, the surface hardness can be increased to 9H or higher corresponding to the ceramic label.
[0021]
Therefore, the silica melting point depressant can achieve its purpose with a small amount of 0.01 ppm or more of the printing sheet based on the water displacement extraction method, and its amount is controlled according to the strength and the like of the intended fired sheet. . The strength of the fired sheet is also related to the particle size of the silica fine particles formed by the alteration of the MQ resin, and the particle size is predicted to be theoretically about 1 nm. With such fine particles, the weight of the printing sheet is 1 weight. Even if it contains less than% and the firing temperature is 500 ° C. or less, a strongly sintered fired sheet can be obtained.
[0022]
In consideration of the particle size of the silica fine particles and the lowering of the firing temperature, the blending amount of the silica melting point depressant which is preferable from the viewpoint of the strength of the obtained fired sheet and the formability of the printing sheet is 100 parts by weight of MQ resin. per, 5 0-10000 ppm, is particularly 100~5000ppm.
[0023]
An appropriate organic solvent can be used as described above, and generally, toluene, xylene, butyl carbitol, ethyl acetate, butyl cellosolve acetate, methyl ethyl ketone, methyl isobutyl ketone, or the like is used. Although it does not limit, it is preferable to prepare a liquid mixture so that solid content concentration may become 5 to 85 weight% from points, such as a developability. In the preparation thereof, appropriate additives such as a dispersant, a plasticizer, and a combustion aid can be blended as necessary.
[0024]
The development method is preferably a method excellent in layer thickness controllability such as a doctor blade method or a gravure roll coater method. It is preferable to sufficiently remove bubbles so that bubbles do not remain in the spreading layer by using an antifoaming agent in combination. The thickness of the printing sheet or the shape-retaining layer to be formed is appropriately determined, but is generally 5 μm to 5 mm, especially 10 μm to 1 mm, particularly 20 to 200 μm.
[0025]
The printing sheet according to the present invention may be in a porous form for the purpose of smooth volatilization of decomposition gas by heating. By the way, when a temporary adhesive layer is provided, the print sheet may swell due to the decomposition gas generated by heating, and this can be prevented by forming a porous print sheet.
[0026]
The porous printing sheet is formed by, for example, a method of forming many fine holes 13 in the printing sheet 1 by a punching method or the like as illustrated in FIG. 3, a woven fabric or non-woven fabric, or many fine holes on the reinforcing substrate. It can be performed by an appropriate method such as a method using a formed metal foil or net.
[0027]
For the purpose of improving the chemical resistance such as flexibility and heat-resistant nitric acid and the ink fixing property, the shape retaining layer described above, for example, silicone rubber, cellulose polymer, hydrocarbon polymer, vinyl or styrene polymer, Acetal polymers, butyral polymers, acrylic polymers, polyester polymers, urethane polymers, fiber polymers, various organic compounds such as waxes and waxes can be blended as necessary.
[0028]
The silicone rubber is particularly preferably used in combination for improving flexibility and heat-resistant nitric acid resistance. As the silicone rubber, an appropriate one can be used and there is no particular limitation. Various modified silicone rubbers such as phenol-modified products, melamine-modified products, epoxy-modified products, polyester-modified products, acrylic-modified products, and urethane-modified products can also be used. Silicone rubber that can be preferably used is excellent in shape retention and flexibility.
[0029]
The amount of silicone rubber used is from 1 to 1000 parts by weight per 100 parts by weight of MQ resin, especially from 5 to 500 parts by weight, especially from 10 to 200 parts by weight, from the standpoint of improving chemical resistance such as heat resistant nitric acid. preferable. When silicone rubber is used in combination, the use ratio of the above-mentioned inorganic powder is based on the total amount of MQ resin and silicone rubber, such as the handling property of the printing sheet, the strength of the printing sheet, the strength of the fired sheet, and the hiding power. It is more preferable than the point.
[0030]
On the other hand, it is particularly preferable to use a cellulose-based polymer such as ethyl cellulose in view of fixing the ink by the thermal transfer method and improving the strength of the printing sheet. The amount of the above-mentioned organic compound other than silicone rubber is generally 5 to 200 parts by weight, especially 10 to 100 parts by weight per 100 parts by weight of the MQ resin, and in the case of using silicone rubber in combination with those 100 parts by weight. However, it is not limited to this.
[0031]
The printing sheet according to the present invention is heated as it is or attached to the adherend as a printing sheet with information added thereto, and the printing sheet under heat treatment or the heat-treated body of the printing sheet is fixed to the adherend. It can be preferably used for the purpose of. In the heat treatment, a method of attaching the adherend to the printing sheet and heating it to fix the adherend to the adherend through the heat-treated body can be employed.
[0032]
The printing sheet or printing sheet according to the present invention may be temporarily attached to the adherend with its own adhesive force, but an adhesive layer may be provided as necessary for the purpose of improving the temporary attachment force. it can. The pressure-sensitive adhesive layer can be provided at an appropriate stage until a printing sheet or the like is temporarily attached to an adherend and subjected to heat treatment. Therefore, it can be provided in advance before giving information to the printing sheet to form a printing sheet, or can be provided after making the printing sheet.
[0033]
For the formation of the adhesive layer, for example, an appropriate adhesive substance such as a rubber-based, acrylic-based, silicone-based, or vinyl alkyl ether-based adhesive can be used. Attaching the adhesive layer is a method of applying an adhesive substance to a printing sheet or printing sheet by an appropriate coating method such as a doctor blade method or a gravure roll coater method, or an adhesive layer provided on a separator according to the above. Can be carried out by an appropriate method in accordance with a method for forming an adhesive tape or the like, such as a method for transferring the material to a printing sheet or a printing sheet.
[0034]
The adhesive layer can also be provided in a scattered state for the purpose of smooth volatilization of the decomposition gas during the heat treatment. In that case, it is more preferable that the printing sheet has the porous form described above. FIG. 4 illustrates the printing sheet 1 in which the adhesive layer 31 is provided in a scattered state. The adhesive layer such as a dot shape can be formed by a coating method such as a rotary screen method.
[0035]
The thickness of the pressure-sensitive adhesive layer to be provided can be determined according to the purpose of use and the like, but is generally 1 to 500 μm, especially 5 to 200 μm. The provided adhesive layer is preferably covered with a separator or the like until it is temporarily attached to the adherend to prevent contamination or the like. For temporarily attaching the printing sheet or the printing sheet to the adherend, an automatic bonding method using a robot or the like can be employed.
[0036]
The printing sheet can be formed by an appropriate method such as a method of giving ink information or engraving information consisting of holes or irregularities to the printing sheet and a method of punching the printing sheet into an appropriate form. It is also possible to form a printing sheet made of a composite of the above information elements or a composite sheet having information formed by various other methods.
[0037]
The ink information can be applied by an appropriate printing method such as a handwriting method, a coating method using a pattern mask, a pattern transfer method provided on a transfer paper, or a printer formation method. In particular, a printing method using a printer, in particular a thermal transfer printer, is more preferable because it can provide arbitrary ink information in a realistic, accurate and efficient manner.
[0038]
As the ink, an appropriate one using a colorant such as a pigment, especially a heat-resistant colorant such as an inorganic type can be used, and contains glass frit for the purpose of improving the fixing power by heat treatment. You may do it. An ink sheet such as a print ribbon to be applied to a thermal transfer printer or the like can be obtained, for example, by adding a binder such as wax or polymer to the ink and holding the ink on a supporting substrate made of a film or cloth. Therefore, a known ink or its ink sheet can be used by a thermal transfer method or the like.
[0039]
The ink information to be applied is arbitrary, and for example, appropriate ink information such as print information, a pattern pattern, and a barcode pattern may be applied. When forming an identification label such as a management label, it is preferable that a good contrast or color tone difference be formed between the printing sheet and the ink information after the heat treatment.
[0040]
The step of giving ink information or form to the printing sheet may be performed before or after temporarily attaching the printing sheet to the adherend. When ink information is formed by a printer, a method of temporarily attaching the ink information to an adherend as a print sheet to which ink information has been applied is usually used.
[0041]
The heat treatment of the printing sheet or the printing sheet temporarily attached to the adherend can be performed under appropriate heating conditions depending on the heat resistance of the adherend. In general, the heating temperature is 1200 ° C. or less, especially 200 to 650 ° C., particularly 350 to 550 ° C. By the heat treatment, the organic resin such as the adhesive layer disappears, and the MQ resin or the like forming the printing sheet is cured while being compatible with the ink information, and is formed into a baked sheet and fixed to the adherend.
[0042]
The printing sheet or the printing sheet according to the present invention is provided with various kinds of articles such as ceramics, glass products, ceramic products, metal products, and glazed products. It can be preferably used for various purposes.
[0043]
In particular, it has excellent chemical resistance, such as being able to withstand immersion in hot nitric acid and maintaining good ink information, for example, from the manufacture of CRT to the recycling of the reworked parts. It can be preferably used for forming a management label. The adherend may have an arbitrary form such as a flat form or a curved form such as a container.
[0044]
【Example】
Example 1
MQ resin 130 parts (parts by weight, the same applies hereinafter) and silicone rubber 30 parts (all manufactured by Shin-Etsu Chemical Co., Ltd.), potassium hydroxide 0.4 parts, potassium titanate 80 parts, and ethyl cellulose 60 parts are uniformly mixed with toluene. Then, the dispersion was applied onto a 75 μm thick polyester film by a doctor blade method and dried to form a shape-retaining layer having a thickness of 65 μm to obtain a printing sheet.
[0045]
On the other hand, a toluene solution containing 100 parts of polybutyl acrylate having a weight average molecular weight of about 1 million is coated on a separator made of glassine paper having a thickness of 70 μm treated with a silicone release agent by a doctor blade method and dried. A pressure-sensitive adhesive layer having a thickness of 20 μm was formed, and the polyester film was peeled off by adhering it to the shape-retaining layer surface to obtain a printing sheet with an adhesive layer.
[0046]
Next, ink information consisting of a barcode is given to the shape retaining layer of the printing sheet using a commercially available ink ribbon holding a wax-based ink containing a metal oxide black pigment and bismuth glass and a thermal transfer printer, and printing is performed. A sheet was obtained.
[0047]
Example 2
A printing sheet and a printing sheet were obtained in the same manner as in Example 1 except that aluminum borate was used instead of potassium titanate.
[0048]
Example 3
A printing sheet and a printing sheet were obtained in the same manner as in Example 1 except that potassium hydroxide was not used.
[0049]
Example 4
A printing sheet and a printing sheet were obtained in the same manner as in Example 1 except that the silicone rubber was replaced with MQ resin.
[0050]
Example 5
A printing sheet and a printing sheet were obtained in the same manner as in Example 1 except that the MQ resin was replaced with silicone rubber.
[0051]
Evaluation test The separator is peeled off from the printed sheet obtained in the above example, temporarily attached to a glass plate through the adhesive layer, heat-treated at 470 ° C. for 30 minutes (in air), from a black barcode on a white background. A glass plate to which a fired sheet having clear ink information was fixed was obtained and used in the following tests. In addition, the organic component in the ethyl cellulose, the adhesion layer, etc. of the printing sheet was burned out by the heat treatment. Further, the fired sheet was one in which MQ resin and / or silicone rubber was transformed into silica and remained as a cured product.
[0052]
Pencil hardness The pencil hardness of the surface of the fired sheet was examined in accordance with JIS K 5400.
[0053]
The surface of the sintered strength fired sheet was rubbed with a cotton cloth to examine the fixing power of ink information and the fixing power to the glass plate, and evaluated according to the following criteria.
Good: When the ink information maintains the same legibility as before the test without falling off the fired sheet.
Defect: When the fired sheet is missing and the ink information becomes unreadable.
[0054]
The reflectance of the reflectance fired sheet on white ground was examined for light having a wavelength of 400 to 800 nm.
[0055]
The chemically resistant fired sheet was dipped in a 15% nitric acid solution at 80 ° C. for 2 minutes together with a glass plate, taken out, and evaluated by the same method as in the sintering strength test.
[0056]
The results are shown in the following table.

[Brief description of the drawings]
FIG. 1 is a cross-sectional view of a print sheet example. FIG. 2 is a cross-sectional view of a print sheet example. FIG. 3 is a plan view of another print sheet example. Explanation of]
1: Printing sheet 11: Shape-retaining layer 12: Reinforcing substrate 13: Fine pores 2: Ink information layer 3: Adhesive layer 31: Adhesive layer distributed in a dot form 4: Adhered body

Claims (5)

A mixture of at least an inorganic powder, MQ resin, and a silica melting point depressant is retained in a sheet form, and is a monofunctional M unit represented by the general formula: R ₃ SiO— (where R is And an inorganic group of 10 to 500 parts by weight per 100 parts by weight of the MQ resin composed of a polymer of tetrafunctional Q units represented by Si (O—) ₄ . A printing sheet comprising a fired sheet containing silica and sintered by heat treatment, containing 1 to 10,000 ppm of the depressant.   The printing sheet according to claim 1, wherein at least one of silicone rubber and cellulose polymer is used in combination.   The printing sheet according to claim 1 or 2, wherein the inorganic powder is a needle-like crystal, and the depressant having a melting point of silica is an alkali metal or a compound thereof. The printing sheet according to claim 1 , further comprising an adhesive layer on one side of the sheet. A printing sheet according to one of claims 1 to 4, printing sheet is characterized in that impart ink information by thermal transfer method.

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