JP2001158874A - Adhesive sheet for manufacturing tile panel - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an adhesive sheet which is useful for manufacturing tile panels, does not cause the falling or slipping of the tile, when the tile panel is manufactured by a per-cast method, and makes it possible to cleanly and easily repeel the tile panel, when the tile panel is demolded after the curing of cement. SOLUTION: This adhesive sheet comprising a substrate and an adhesive layer disposed on the back side of the substrate and used for manufacturing tiles is characterized in that a 180 degree peel adhesive force in accordance with JIS Z0237 is 300 to 1,500 gf/25 mm, when a clay tile prescribed by JIS A5209 is used as an adherend, and also >=250 gf/25 mm, when polyethylene is used as an adherend, and that it contains a oxycarboxylic acid and/or a oxycarboxylate in the adhesive layer, and further that the 180 degree peel tear strength of the substrate is >=500 gf at a pulling speed of 1,000 mm/min.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an adhesive sheet for producing a tile panel used for producing a tile panel used for an outer wall of a building structure.

[0002]

2. Description of the Related Art Conventionally, as a method of laying tiles on the wall surface of a building structure, a method of pasting tiles one by one directly on a mortar or cement surface or a method of pasting a certain number of tiles in advance and integrating them. Make a tile panel,
There is a method of fixing this panel to a wall surface (so-called precast method). Recently, the latter precast method is widely used in terms of work efficiency, cost, finishing accuracy and the like.

[0003] The step of manufacturing a tile panel is described in detail. After arranging the tiles in a plane at predetermined intervals with the surface facing upward, a step of laying joint materials in the gaps between the tiles. A step of pressing a pressure-sensitive adhesive sheet for tile panel production (hereinafter, also simply referred to as a pressure-sensitive adhesive sheet) from the surface side of the tile and the joint material to integrate them,
Integrated sheet (hereinafter, also referred to as tile sheet)
In general, the method includes a step of placing cement on the opposite surface of the pressure-sensitive adhesive sheet and curing and curing, and a step of finally peeling off the pressure-sensitive adhesive sheet on the surface to form a tile panel after the cement is cured.

Usually, in the above process, cement is poured on the back side of the tile. At this time, vibration is applied so that the cement spreads evenly all over the back side of the tile, and curing for cement hardening is performed. In the case of 40-60
Heat of about ° C is applied. Also, when cement is cast, the pressure-sensitive adhesive sheet is crimped, and then the pressure-sensitive adhesive sheet is turned over, depending on the object, and placed flat on a mold deeper than the tiles. In a state where the tile sheet is fixed to the frame so that the tile sheet is perpendicular to the ground in some cases.

[0005]

However, in the conventional pressure-sensitive adhesive sheet, in the above-mentioned step, the adhesion between the pressure-sensitive adhesive sheet and the tile is weak, or the tile surface cannot be sufficiently bonded.
When the tile sheet is turned over, the tile is peeled off, or when the tile is fixed vertically, the tile is gradually peeled off, and finally, the tile attached before the cement is cast falls off. Also, if the tiles are displaced even if they do not fall off, the dimensional accuracy of the tile positions on the finished tile panel will be reduced, and the appearance will be impaired, making it impossible to use them on building walls. In such a case, the production of the tile panel is performed again, resulting in poor workability.

Further, when the adhesive strength between the adhesive sheet and the joint material (mainly polyethylene) is weak, the adhesive sheet cannot be sufficiently adhered to the joint material. There is a problem that the material remains. This remaining joint material has to be removed manually, which is a rather difficult task and requires a lot of time and effort.

Further, in the process of hardening and curing after the casting of cement, a considerable amount of uncured liquid cement permeates into the gap formed between the pressure-sensitive adhesive sheet and the tile surface as the tile gradually peels off and solidifies. Would. This phenomenon is particularly remarkable in the case of a rough tile having a highly uneven surface, but the excess cement that has protruded and hardened has to be removed manually by demolding and peeling off the adhesive sheet, which is extremely difficult. It's a work and takes a lot of time and effort.

[0008] As a method for solving various problems such as the above-mentioned falling off or displacement of the tile and the remaining joint material in the tile panel production process, for example, peeling of the tile surface with a polymer absorbent or a surfactant added thereto in advance is performed. A method of coating with a possible coating agent (Japanese Patent Application Laid-Open No. 7-137017), and a method of coating the surface of a tile with a peelable coating material to which a water-absorbing organic substance or a water-absorbing inorganic substance is added (Japanese Patent Application Laid-Open No. 7-137018) A method is disclosed in which the surface of a tile is coated with a polymer emulsion which is insoluble in water and soluble in alkali, and the tile surface is washed with an alkali solution after demolding (Japanese Patent Application Laid-Open No. 7-112414). Also, a method of using a cement setting retarder on the surface of a foamed joint material (Japanese Patent Application Laid-Open No. 6-220977), and a method of bonding a tile to the surface of a formwork with an adhesive to which an alkali-swelling concrete non-hardening agent is added (particularly). No. 7-68517).

[0009] However, not only the number of working steps such as applying a treating agent to the tile surface in advance increases, but also in these methods, when the adhesive sheet is peeled off after the mold is released, glue remains on the tile surface to contaminate it. However, problems such as peeling resistance and peeling workability being increased due to increased peeling resistance, and further, the pressure-sensitive adhesive sheet being broken from the base material have not been solved.

[0010] The present invention has solved the above problems,
An object of the present invention is to provide a pressure-sensitive adhesive sheet for producing a tile panel, which is extremely excellent in workability.

[0011]

Means for Solving the Problems First, the present inventors have studied the adhesive strength of the pressure-sensitive adhesive constituting the pressure-sensitive adhesive sheet. The relationship between the adhesive strength of the adhesive sheet to the tile, the retentivity of the tile when the tile sheet is inverted and when the tile sheet is held vertically, the adhesive residue on the tile surface when the adhesive sheet is removed again, and the relationship between the peel resistance and Since the jointing material is made of foamed polyethylene, we conducted intensive research on the adhesive strength of the adhesive to polyethylene and the remaining jointing material when the adhesive sheet was re-peeled. It was found that the problem could be solved by finishing the pressure-sensitive adhesive sheet.

(1) That is, a first aspect of the present invention is a pressure-sensitive adhesive sheet comprising a substrate and a pressure-sensitive adhesive layer provided on the back surface of the substrate, wherein the pressure-sensitive adhesive layer has a 180-degree peel adhesive strength in accordance with JIS Z0237. 300 to 150 when is the adherend
A pressure-sensitive adhesive sheet for producing a tile panel, which is 0 gf / 25 mm and 250 gf / 25 mm or more when polyethylene is used as an adherend. It is preferable to use an acrylic adhesive as the adhesive. In particular, the pressure-sensitive adhesive layer is preferably a layer to which a coating liquid containing an acrylic pressure-sensitive adhesive and a crosslinking agent has been applied, and the coating liquid is preferably a solvent-based liquid. As the crosslinking agent, an isocyanate compound is particularly preferred.

[0013] Next, the present inventors, when using a rough tile having a large amount of irregularities, easily remove cement that has penetrated into a gap formed between the adhesive sheet and the tile surface and has solidified as it is. After further research on the method,
It has been found that by mixing a specific substance into the pressure-sensitive adhesive layer, the hardening of the cement can be suppressed, and the cement attached to the tile surface can be easily removed.

(2) That is, the second invention relates to a pressure-sensitive adhesive sheet for producing a tile panel comprising a substrate and a pressure-sensitive adhesive layer provided on the back surface of the substrate, wherein the pressure-sensitive adhesive layer contains oxycarboxylic acid and / or oxycarboxylic acid. A pressure-sensitive adhesive sheet for producing a tile panel, comprising a carboxylate. In particular, it is preferable that the pressure-sensitive adhesive layer contains 3 to 40 parts of oxycarboxylic acid and / or oxycarboxylic acid salt based on 100 parts by weight of the solid content of the pressure-sensitive adhesive. Further, the oxycarboxylic acid and / or oxycarboxylate is preferably present in a powder state. In particular, use of gluconate is preferable, and use of an acrylic pressure-sensitive adhesive is preferable as the pressure-sensitive adhesive.

Further, the present inventors have repeated research on a substrate suitable for a pressure-sensitive adhesive sheet. By simultaneously improving the adhesive strength of the pressure-sensitive adhesive sheet and the strength of the pressure-sensitive adhesive sheet substrate, it is thought that all of these various problems can be avoided. However, in general, in order to improve the strength of the substrate, it is necessary to increase the thickness of the substrate. Also, it is necessary to make the material forming the base material tough, so that the base material loses flexibility and becomes so-called “scary”. If the stiffness of the base material of the pressure-sensitive adhesive sheet is high, the pressure-sensitive adhesive sheet and the tile surface cannot be sufficiently adhered to each other because point contact cannot be made with respect to the tile surface which is rich in irregularities, and as described above, The problem of excessive peeling of the tiles, falling off of the tiles, and infiltration of liquid cement into gaps generated between the adhesive sheet and the tile surface will recur.

The present inventors have conducted intensive studies on a substrate having both sufficient strength and flexibility in order to provide a tile panel satisfying these contradictory properties, and as a result, have found that a substrate having specific physical properties is used. To achieve.

(3) That is, according to a third aspect of the present invention, in a pressure-sensitive adhesive sheet for producing a tile panel comprising a base material and an adhesive layer provided on the back surface of the base material, the 180-degree peel tear strength of the base material is determined by the tensile speed. 500 at 1000 mm / min
gf or more. In particular, a 15 mm wide substrate is preferably a substrate having an elongation of 1% or less under a load of 2 kg, and further has a Clark stiffness of 20 c according to JIS P8143.
m ^3/100 or less is substrate Yoriyori preferred.

[0018]

BEST MODE FOR CARRYING OUT THE INVENTION The first invention is that the adhesive layer has a 180-degree peeling adhesive force according to JIS Z0237 of 300 to 1500 gf / 25 m when a tile is used as an adherend.
m. By the way, the adhesive strength to tile is 300
If it is smaller than gf / 25 mm, sufficient adhesion to the tile surface cannot be achieved, and when the tile sheet is inverted and held vertically, floating, peeling, falling off, and displacement of the tile may occur.
Alternatively, a large amount of uncured liquid cement permeates into the gap formed between the adhesive sheet and the tile surface and solidifies as it is, causing a problem that the aesthetic appearance of the finished tile panel is impaired. On the other hand, the adhesive strength is 1500 gf / 25 mm
If it is larger than this, when peeling off the adhesive sheet after removing the tile panel, there will be problems such as adhesive residue on the tile surface, or workability will be reduced due to increased peel resistance, and the adhesive sheet will be broken. Occurs. In addition, it is preferably about 350 to 1200 gf / 25 mm.

The tile used as the adherend is J
Ceramic tile specified in IS A5209.
Porcelain is roughly classified into porcelain, porcelain, and porcelain, but in any case, pure feldspars made of weathered clay (porcelain clay) are mixed with quartz, etc. It is made by baking and hardening it. Further, depending on the application, a so-called “glaze” containing a silicate compound as a main component may be applied to the surface.
Further, there are tiles having a smooth surface and tiles having irregularities. The adhesive strength of the adhesive layer to the tile is more affected by whether the tile surface is smooth or uneven, whether the tile surface has glaze or not, rather than the type of tile such as porcelain, stoneware, or ceramic . The adhesive strength of the pressure-sensitive adhesive layer is good if the tile used falls within the above range,
Preferably, both the smooth tile having glaze and the tile having unevenness without glaze fall in the above range.

Further, the pressure-sensitive adhesive layer must have a thickness of 250 gf / 25 mm or more when polyethylene is used as the adherend. Incidentally, the adhesive strength to polyethylene is 250 gf / 25.
When it is smaller than mm, the joint material cannot be sufficiently bonded to the joint material, and the joint material remains in the joint portion of the tile panel when the pressure-sensitive adhesive sheet is peeled off after releasing the tile panel.

The adhesive strength of the pressure-sensitive adhesive sheet to tile and polyethylene is 1 in conformity with JIS Z0237.
It is a value measured by 80-degree peel adhesion. Only by simultaneously satisfying both the specific ranges of the adhesive strength to tile and the adhesive strength to polyethylene, can the tiles have sufficient tile holding properties when the tile sheet is inverted and when the tile sheet is held vertically, and the adhesive sheet must be re-used. Good workability with no adhesive residue on the tile surface and no tearing of the adhesive sheet when peeling, good peel resistance, and no joint material residue on the tile panel when the adhesive sheet is removed again. Excellent adhesive sheet.

The pressure-sensitive adhesive used in the first invention includes:
There is no particular limitation on the type as long as it has the above-mentioned adhesive strength, and its composition is rubber-based, acrylic-based, silicone-based, or the like, and the form is water-based, solvent-based, emulsion-based, or the like. Can be used arbitrarily. If necessary, a crosslinking agent such as an isocyanate compound, an epoxy compound, or a metal chelate compound, an auxiliary agent such as a tackifier, and other known additives can be appropriately compounded. Further, a setting retarder for cement such as oxycarboxylate may be blended within a range that does not impair the adhesive strength.

In order to obtain the above-mentioned adhesive strength, it can be adjusted by selecting a pressure-sensitive adhesive, a cross-linking agent, selecting additives such as a tackifier, and the amounts thereof, and the amount of the pressure-sensitive adhesive layer applied. Among them, an acrylic pressure-sensitive adhesive is preferable from the viewpoint of good adhesion to polyethylene and excellent weather resistance even when used outdoors. In addition, by using the crosslinking agent together with a crosslinking agent, the adhesive force can be adjusted and the pressure-sensitive adhesive layer can be made water-resistant, which is preferable. Further, the pressure-sensitive adhesive layer is preferably formed by coating with a solvent-based coating liquid because of its excellent water resistance. Use of an isocyanate-based compound as the crosslinking agent is most excellent in quality.

The amount of the adhesive applied to the substrate is 30 to
100 g / m ² is preferred. By the way, the coating amount is 30 g /
If less than m ^2, below the adhesive force bonding force is defined in the present invention, occur fall off or misalignment of the tile, the joint material remaining to tile panel, whereas, adhesion and coating amount exceeds 100 g / m ² Since the force exceeds the adhesive strength specified in the present invention, the tile holding property, the adhesiveness with the joint material is good, but when the pressure-sensitive adhesive sheet is re-peeled, or a glue residue occurs on the tile surface,
Alternatively, there arises a problem that the adhesive sheet is broken. In addition, a problem of so-called wool that the adhesive sticks out over time occurs.

As a method of applying the pressure-sensitive adhesive, any known method such as a bar coater, a gravure coater, a knife coater, a roll coater, a comma coater, a die coater, etc. can be used. In addition, a method of directly applying and drying an adhesive on a substrate (direct method), a silicone resin,
A method (transfer method) of once applying a pressure-sensitive adhesive on a release sheet provided with a release agent layer such as a fluororesin, drying the adhesive, and then bonding the adhesive to a substrate is possible and is not limited.

As the base material, known papers (preferably kraft paper, Clupak paper, laminated paper, synthetic fiber paper, etc.), films (eg, polyester, polyolefin, nylon, etc.), synthetic papers, nonwoven fabrics, woven fabrics and the like A laminate and the like can be exemplified. However, problems such as substrate breakage in the tile panel manufacturing process greatly reduce work efficiency, and therefore, it is preferable to use a substrate that satisfies the third invention described below.

According to a second aspect of the present invention, the pressure-sensitive adhesive layer contains an oxycarboxylic acid and / or an oxycarboxylic acid salt. Oxycarboxylic acids and / or oxycarboxylates are known as setting retarders for cement. The mechanism by which the oxycarboxylic acid and / or oxycarboxylate in the adhesive layer delays the setting of the cement is not clear,
When the cement leaked to the tile surface and the oxycarboxylic acid and / or oxycarboxylate in the pressure-sensitive adhesive layer come into contact in some state, the oxycarboxylic acid molecules combine with calcium ions in the cement to form a strong chelate ring. This is adsorbed on the surface of 3CaO · SiO ₂ (also called alite) in the cement, and can delay the hydration of the alite, so that the hardening of the cement on the tile surface can be suppressed. it is conceivable that. This can facilitate subsequent cement removal work on the tile surface since the hardening of the cement is slower on the tile surface than on other parts.

It is also conceivable to incorporate an aminophosphonate-based setting retarder for cement, sucrose, etc. into the pressure-sensitive adhesive layer. In the case of an aminophosphonate, the retardation effect is lower than that of oxycarboxylic acid or oxycarboxylate, and almost no effect is obtained. In the case of sucrose, when the contact with the cement is small, the ability to suppress the hardening is insufficient, and when the contact is excessive, a quick-setting action is exhibited, which makes the adhesive sheet difficult to handle. There is also a proposal to mix a water-absorbing substance in the pressure-sensitive adhesive layer (Japanese Utility Model Application Laid-Open No. 4-6426).
This is due to the effect of lowering the clinker / water ratio in the concrete, and in some cases the cement does not harden at all. Therefore, the tile joint may not be finished cleanly, which is not suitable.

The oxycarboxylic acid is an organic compound having a carboxyl group and an alcoholic hydroxyl group in one molecule, also called an oxyacid, a hydroxy acid, a hydroxycarboxylic acid, and an alcoholic acid. The position is distinguished from α-, β-, γ-, δ -... hydroxy acids. The number of carboxyl groups in one molecule is distinguished from oxymonocarboxylic acid, oxydicarboxylic acid, oxytricarboxylic acid, and the like.

Specific examples of oxycarboxylic acids include lactic acid, glyceric acid, tartaric acid, citric acid, tropic acid, benzylic acid, gluconic acid and the like. These acids are neutralized with an alkali such as sodium hydroxide. The salt obtained by the above method can also obtain the same effect. These may be used alone, or two or more oxycarboxylic acids and / or oxycarboxylates may be used in combination. The oxycarboxylic acid and / or oxycarboxylate in the pressure-sensitive adhesive layer is preferably in the form of a salt having higher solubility in water than an acid, because the oxycarboxylic acid and / or oxycarboxylate is dissolved in the liquid cement to suppress the hardening of the cement. Among them, the use of gluconate has the most excellent effect.

A setting retarder for cement containing an oxycarboxylic acid and / or an oxycarboxylate as a main component is:
There are two types, aqueous solution type and powder type,
Both can be used in the present invention. However, in the case of the aqueous solution type, since the crosslinking agent in the pressure-sensitive adhesive layer reacts with water,
In the case of a pressure-sensitive adhesive having a cross-linking agent, a powder type is preferable because the quality such as adhesive strength is deteriorated and a stable pressure-sensitive adhesive-containing coating liquid cannot be obtained.

The particle size of the oxycarboxylic acid and / or oxycarboxylate is not less than 1 μm and not more than the thickness of the pressure-sensitive adhesive layer before drying when the pressure-sensitive adhesive is applied. Preferably 1 μm
To 70% of the thickness of the pressure-sensitive adhesive layer before drying when the pressure-sensitive adhesive is applied. By the way, it is difficult to grind the particle size smaller than 1 μm, because the oxycarboxylic acid or oxycarboxylate absorbs moisture during the grinding and reaggregates. On the other hand, if the thickness of the pressure-sensitive adhesive layer at the time of pressure-sensitive adhesive coating exceeds the thickness before drying,
When applying adhesive, it may cause streaks,
The adhesive strength of the pressure-sensitive adhesive sheet is reduced, which causes the tile to fall off the pressure-sensitive adhesive sheet during the tile panel manufacturing process. The particle size should be about 1 to 100 μm, preferably about 1 to 70 μm.

The number of added oxycarboxylic acid and / or oxycarboxylic acid salt cannot be completely determined because it differs depending on the pressure-sensitive adhesive to be used, but is preferably in the range of 3 to 40 parts per 100 parts by weight of the solid content of the pressure-sensitive adhesive. Is 10-35
Parts by weight. By the way, if the number of added parts is less than 3 parts by weight, a satisfactory effect of inhibiting the hardening of cement cannot be obtained, while if it exceeds 40 parts by weight, the effect of inhibiting the hardening of the cement is too strong, and the cement around the tile and the inside of the tile panel becomes too strong. Of the tile panel is suppressed, and a hole is formed in the joint portion of the tile panel.

When mixing into the pressure-sensitive adhesive layer, oxycarboxylic acid and / or oxycarboxylate powder granules are mixed with a low-viscosity pressure-sensitive adhesive or a high-molecular resin to make the particles fine and mixed with a sand grinder. Mix using equipment. Alternatively, a method in which oxycarboxylic acid and / or oxycarboxylate powder granules are kneaded into a high-viscosity adhesive or polymer resin using a kneader, and the resulting mixture is added to the adhesive and dispersed can be employed.

As the pressure-sensitive adhesive used in the second invention,
The type of the oxycarboxylic acid and / or oxycarboxylic acid salt is not particularly limited as long as it can be mixed, and the composition thereof is rubber-based, acrylic-based, silicon-based, or the like, and the form is water-based, solvent-based, or emulsion-based. Any known ones such as can be used. If necessary, a crosslinking agent such as an isocyanate compound, an epoxy compound, or a metal chelate compound, an auxiliary agent such as a tackifier, and other known additives can be appropriately compounded.

Above all, the 180-degree peel adhesive strength of the pressure-sensitive adhesive layer according to JIS Z0237 is 300 to 1500 gf / 25 mm when the tile is the adherend, and 250 gf / 25 mm or more when the polyethylene is the adherend. If so, the tile and the joint material are less likely to be displaced or peeled off from the pressure-sensitive adhesive sheet, so that leakage of liquid cement to the tile surface can be considerably suppressed in the process from placing the cement to hardening and curing, which is particularly preferable.

In order to obtain the above-mentioned adhesive strength, it can be adjusted by selecting a pressure-sensitive adhesive, a cross-linking agent, selecting an additive such as a tackifier and the like, and a blending amount thereof, and further a coating amount of a pressure-sensitive adhesive layer. Above all, an acrylic pressure-sensitive adhesive is preferred from the viewpoint of good adhesion to polyethylene and excellent weather resistance even when used outdoors. In addition, by using the crosslinking agent together with a crosslinking agent, the adhesive force can be adjusted and the pressure-sensitive adhesive layer can be made water-resistant, which is preferable. Further, the pressure-sensitive adhesive layer is preferably formed by coating with a solvent-based coating liquid because of its excellent water resistance. Use of an isocyanate-based compound as the crosslinking agent is most excellent in quality.

The coating amount of the pressure-sensitive adhesive on the substrate is 30 to
100 g / m ² is preferred. By the way, the coating amount is 30 g /
If less than m ^2, below the adhesive force bonding force is defined in the present invention, occur fall off or misalignment of the tile, the joint material remaining to tile panel, whereas, adhesion and coating amount exceeds 100 g / m ² Since the force exceeds the adhesive strength specified in the present invention, the tile holding property, the adhesiveness with the joint material is good, but when the pressure-sensitive adhesive sheet is re-peeled, or a glue residue occurs on the tile surface,
Alternatively, there arises a problem that the adhesive sheet is broken. In addition, a problem of so-called wool that the adhesive sticks out over time occurs.

As the method of applying the pressure-sensitive adhesive, any known method such as a bar coater, a gravure coater, a knife coater, a roll coater, a comma coater, a die coater, etc. can be used. In addition, a method of directly applying and drying an adhesive on a substrate (direct method), a silicone resin,
A method (transfer method) of once applying a pressure-sensitive adhesive on a release sheet provided with a release agent layer such as a fluororesin, drying the adhesive, and then bonding the adhesive to a substrate is possible and is not limited.

As the base material, known paper (preferably kraft paper, Clupak paper, laminated paper, synthetic fiber paper, etc.), film (eg, polyester, polyolefin, nylon, etc.), synthetic paper, nonwoven fabric, woven fabric, A laminate and the like can be exemplified. However, problems such as substrate breakage in the tile panel manufacturing process greatly reduce work efficiency, and therefore it is preferable to use a substrate that satisfies the following third invention.

In the third invention, first, it is necessary to use a base material having a 180 degree peel tear strength of 500 gf or more at a tensile speed of 1000 mm / min. The 180-degree peel tear strength referred to in the present invention is, as shown in FIG. 1, when a cut is made in the base material, the base material is placed on the upper and lower grips of a tensile tester, and the base material is pulled by 180-degree peel to tear. Strength. By the way, when the tear strength is lower than 500 gf, when the adhesive sheet is removed from the tile again, the sheet is broken, which is a serious problem.

In order to prevent the pressure-sensitive adhesive sheet from being broken when the pressure-sensitive adhesive sheet is peeled off from the tile, it is best to lower the adhesive strength of the pressure-sensitive adhesive to the tile. At the time and when the tile sheet is held vertically, sufficient tile holding properties cannot be exhibited, and as a result, the tiles fall off or shift. Therefore, the adhesive force of the pressure-sensitive adhesive sheet is controlled to be high enough to satisfy the tile holding property, and instead, the substrate is made high in strength to overcome the substrate tear of the pressure-sensitive adhesive sheet at the time of re-peeling.

Examples of the physical strength of the sheet-like base material include burst strength, tensile strength, tear strength, bending resistance, and wear resistance. When closely observing the situation of substrate tearing during actual adhesive sheet re-peeling, in the case of a paper substrate adhesive sheet, when torn, it is common that the substrate itself breaks perpendicular to the pulling direction due to the tensile force, It can be said that the breakage is mainly related to the tensile strength of the base material, but in the case of a resin film base, such breakage is rare and, for some reason, is usually selected from the direction of weak physical strength. It is torn apart. Therefore, it is considered that whether or not the substrate of the present invention is torn mainly depends on the tear strength.

The tear strength of the sheet-like substrate is JIS P81.
It is indicated by the Elmendorf tear strength specified in No. 16, but in the case of a resin-based substrate as in the present invention, the dispersion of measured values is large in the evaluation method, and it is impossible to know the true substrate strength. The measurement is performed using an evaluator such as a tester.

Next, regarding the elongation of the base material, the elongation of the base material used in the present invention is preferably 1% or less when a 2 mm load is applied to a 15 mm wide base material. By the way, growth is 1
%, The pressure-sensitive adhesive sheet is pressed against the tile in an extended state when the pressure-sensitive adhesive sheet is actually pressed, so that the base material shrinks after pasting, resulting in the tile position on the tile panel. Since the dimensional accuracy of the tile sheet decreases, the appearance of a tile sheet requiring extremely high dimensional accuracy in millimeter units becomes poor, and the tile sheet cannot be used for building wall surface. In addition, when the pressure-sensitive adhesive sheet is peeled off from the tile, if the base material is unnecessarily stretched, the working efficiency deteriorates.

[0046] Further, although a stiffness of the substrate, stiffness of the substrate used in the present invention, in Clark stiffness to comply with JISP8143, is preferably 20 cm ^3/100 or less. By the way, Clark stiffness is 20cm ^3/1
When the value is larger than 00, when the work of actually pressing the pressure-sensitive adhesive sheet is performed, the base material does not sufficiently follow the tile having particularly uneven surface, and a small gap is formed between the tile surface and the pressure-sensitive adhesive sheet. As a result, there is a problem that the tiles are displaced or fall off, or even if not, the uncured liquid cement enters the gaps and hardens as it is at the time of cementing, thereby contaminating the tile surface.

It is particularly preferred that the substrate of the present invention simultaneously satisfies the above-mentioned specific ranges in all of the above-mentioned tear strength, elongation and stiffness. As such a base material, particularly preferred is a material obtained by continuously laminating and thermally splitting split fibers having fine cracks in a sufficiently stretch-reinforced resin film vertically and horizontally (hereinafter referred to as split fiber nonwoven fabric). ) Or a film formed by extruding a heat-melted polyolefin-based resin such as polyethylene with a die or the like by slitting into a narrow width, and then stretching and orienting in the longitudinal direction with a hot roll or the like. And a flat yarn woven fabric which is a flat yarn obtained by forming a laminate coating layer. Of course, besides these, the base material is not particularly limited as long as it satisfies a specific range of physical properties defined in the present invention.

The pressure-sensitive adhesive sheet of the present invention has a structure in which a release sheet having a release agent layer is laminated on the surface of the pressure-sensitive adhesive layer to protect the pressure-sensitive adhesive, or the pressure-sensitive adhesive layer of the base material is not formed. A configuration in which a release agent layer is formed on the surface and the pressure-sensitive adhesive layer is protected by winding it up in a tape shape can be employed. Known materials such as paper, glassine paper, polylamine paper, and film can be used as the base material of the release sheet, for example, silicone-based, fluorine-based, and long-chain alkyl-based release agents. In addition, since the release sheet becomes waste after use, it is particularly preferable to adopt a tape-like form.

[0049]

The present invention will be described in more detail with reference to the following examples and comparative examples.
The present invention will be described more specifically with reference examples, but is not limited to these. "Part" and "%"
All mean "parts by weight" and "% by weight".

Example 1 "Preparation of release sheet" An addition-type silicone resin was added to a commercially available polyethylene laminated paper (a high-quality paper 74 g / m ² laminated with polyethylene by a melt extrusion method to a thickness of about 15 μm). (Trademark: SD7220
/ Catalyst SRX212 0.9 part added, manufactured by Dow Corning Toray Silicone Co., Ltd.) using a bar coater to apply a dry solution to a dry weight of 1 g / m ² .
After drying and curing at 140 ° C. for 1 minute, a release sheet was prepared.

[Preparation of pressure-sensitive adhesive sheet] An acrylic pressure-sensitive adhesive (trade name: ATR333 / crosslinking agent A) was placed on the release sheet.
L2 part, manufactured by Seiden Chemical Co.)
m of oxycarboxylate powder (sodium gluconate, Fujisawa Pharmaceutical Co., Ltd.) in an amount of 10 parts per 100 parts by weight of the solid content of the pressure-sensitive adhesive is absolutely dried using a bar coater at 50 g / m 2. After coating so as to be ² , it was dried at 100 ° C. for 1 minute.

Next, a low-density polyethylene was laminated on both sides of a flat yarn woven fabric of a high-density polyethylene as a base material by a melt extrusion method to a thickness of about 20 μm on the adhesive layer to give a total thickness of 100 μm. (180 ° peel tear strength at a pulling speed of 1000 mm / min: 1000 gf, elongation under 2 kg load:
0.11%, Clark stiffness: 6.7cm ^3/100)
Was pressure-bonded with a nip roll, and aged at 40 ° C. for 3 days to obtain a pressure-sensitive adhesive sheet.

Example 2 An adhesive sheet was prepared in the same manner as in Example 1 except that the amount of the adhesive was 35 g / m ² on a dry basis in “Preparation of an adhesive sheet” of Example 1. I got

Example 3 An adhesive sheet was prepared in the same manner as in Example 1 except that the amount of the adhesive was changed to 95 g / m ² on a dry basis in "Preparation of an adhesive sheet" of Example 1. I got

Comparative Example 1 An adhesive sheet was prepared in the same manner as in Example 1 except that the amount of the adhesive was changed to 20 g / m ² on a dry basis in “Preparation of an adhesive sheet” in Example 1. I got

Comparative Example 2 An adhesive sheet was prepared in the same manner as in Example 1 except that the amount of the adhesive was changed to 120 g / m ² on a dry basis in "Preparation of an adhesive sheet" of Example 1. I got

Example 4 A pressure-sensitive adhesive sheet was obtained in the same manner as in Example 1 except that the number of cross-linking agents added to the pressure-sensitive adhesive was changed to 4 in "Preparation of pressure-sensitive adhesive sheet".

Example 5 A pressure-sensitive adhesive sheet was obtained in the same manner as in Example 1 except that the number of the oxycarboxylate added was 5 parts in "Preparation of pressure-sensitive adhesive sheet" of Example 1.

Example 6 In Example 1, "Preparation of pressure-sensitive adhesive sheet",
A pressure-sensitive adhesive sheet was obtained in the same manner as in Example 1, except that the oxycarboxylate of m to 70 μm was used in an amount of 10 parts.

Example 7 A pressure-sensitive adhesive sheet was obtained in the same manner as in Example 1 except that the oxycarboxylate was not used in “Preparation of pressure-sensitive adhesive sheet” of Example 1.

Example 8 A pressure-sensitive adhesive sheet was obtained in the same manner as in Example 1 except that the number of the oxycarboxylate added was 2 parts in "Preparation of pressure-sensitive adhesive sheet" of Example 1.

Comparative Example 3 In Example 1, "Preparation of adhesive sheet", the particle size was 15
The number of added oxycarboxylates of 0 μm to 200 μm is 1
A pressure-sensitive adhesive sheet was obtained in the same manner as in Example 1 except that 0 part was used.

Example 9 In Example 1, "Preparation of pressure-sensitive adhesive sheet", a substrate was prepared by laminating polyethylene on one side of a split-fiber nonwoven fabric so as to have a thickness of about 40 μm (trade names: Warif HS, Nisseki Plast Co., Ltd.). Company, thickness: 110 μm, pulling speed 10
180 degree peel tear strength at 00 mm / min: 6
500 gf, elongation at 2kg load: 0.35%, Clark stiffness: 6.3 cm ^3/100) except for using the same procedure as in Example 1 to obtain an adhesive sheet.

Reference Example 1 In Example 1, "Preparation of pressure-sensitive adhesive sheet",
/ EVA mixed film (trademark: SB-10, manufactured by Tamapoly Co., Ltd., thickness: 80 μm, pulling speed: 1000 mm / mi)
180 degree peel tear strength at n: 350 gf, 2k
Elongation under g load: 415%, Clark stiffness: 1.6c
except for using m ^3/100) in the same manner as in Example 1 to obtain an adhesive sheet.

Reference Example 2 In "Preparation of pressure-sensitive adhesive sheet" of Example 1, a transparent PET film (trade name: Embled S, manufactured by Unitika Ltd., thickness: 100 μm, pulling speed: 1000 mm / m) was used as a substrate.
180 degree peel tear strength in 100 gf, 2
Elongation under kg load: 0.50%, Clark stiffness: 6
Except for using 3.5 cm ^3/100) in the same manner as in Example 1 to obtain an adhesive sheet.

Reference Example 3 In "Preparation of pressure-sensitive adhesive sheet" of Example 1, a transparent PP film (trade name: 50LL-534, manufactured by Mobile, thickness: 50 μm, pulling speed: 1000 mm / mi) was used as a substrate.
peeling strength at 180 °: 9 gf, elongation under 2 kg load: 0.77%, stiffness of Clark: 16.6 c
except for using m ^3/100) in the same manner as in Example 1 to obtain an adhesive sheet.

Reference Example 4 In "Preparation of pressure-sensitive adhesive sheet" in Example 1, a transparent PVC film (trade name: VSS67410, manufactured by Nakai Kogyo Co., Ltd., thickness: 95 μm, pulling speed: 1000 mm / mi) was used as the substrate.
peeling strength at 180 ° C: 5 gf, elongation under 2 kg load: 1.10%, stiffness of Clark: 14.3 c
except for using m ^3/100) in the same manner as in Example 1 to obtain an adhesive sheet.

The following evaluation was performed on the pressure-sensitive adhesive sheet obtained as described above. Table 1 shows the evaluation results.

<Adhesive Strength to Tile / Polyethylene> Commercially available glazed porcelain smooth tile (trade name: PL560,
Two types of tiles, a non-glazed porcelain rough surface tile (trademark: SV50, manufactured by Danto), and a polyethylene film were used as adherends. First, a pressure-sensitive adhesive sheet was manually attached to the surface of a tile or polyethylene film, and then the sheet surface was rubbed with a metal scourer and pressed to obtain a sample. Next, the 180-degree adhesive force at a pulling speed of 300 mm / min according to JIS Z0237 was measured.

<Removability from tile> Commercially available glazed porcelain smooth tile (trademark: PL560, manufactured by Danto) and non-glazed porcelain rough tile (trademark: SV)
50, manufactured by Danto) as adherends
A sample was obtained by pressure bonding in the same manner as in the adhesive force. After the sample was treated at 40 ° C. for one week, the sample was peeled off by hand to evaluate adhesive residue and substrate tear. The evaluation criteria were as follows. "Glue residue" ：: There is no glue residue and it can be peeled off neatly. ×: Residue of glue is generated, and it cannot be peeled off cleanly. "Substrate tear" ○: There is no substrate tear, and re-peeling is possible. ×: The substrate is broken and cannot be peeled again.

<Adhesiveness to joint material> A commercially available foamed joint material made of polyethylene (trade name: Lattice Megumi No. 318, manufactured by Yoshida Kako Co., Ltd.) was used as an adherend and pressure-bonded in the same manner as the adhesive force to obtain a sample. After treating this sample at 40 ° C. for one week, the sample was peeled off by hand to evaluate the adhesiveness. The evaluation criteria were as follows. ：: The adherend was torn and had sufficient adhesive strength. ×: Removable, not sufficiently adhered.

<Tile Hanging Retention> Commercially available glaze-coated porcelain smooth tile (trademark: PL560, manufactured by Danto) and non-glaze porcelain rough tile (trademark: SV)
50, manufactured by Danto Co., Ltd.), and a sample was obtained by pressure bonding in the same manner as the adhesive strength. This sample is 8
Individual pieces were prepared, and the number of tiles dropped after being hung at room temperature for one week was evaluated.

<Cement Hardening Inhibiting Effect> Commercially available cement (trademark: instant cement, manufactured by Toyo Matelan Co., Ltd.) on the surface of a commercially available glaze-free porcelain rough tile (trademark: SV50, manufactured by Danto), main component: A material obtained by kneading Portland cement) with water was thinly applied, and the surface thereof was brought into contact with the pressure-sensitive adhesive surface of a pressure-sensitive adhesive sheet. This is 4
After curing at 0 ° C. for 7 hours to cure the cement, the pressure-sensitive adhesive sheet was peeled off, and the degree of curing of the cement was evaluated. The degree of hardening of the cement was determined by whether or not the cement could be easily removed by gently rubbing the surface of the cement under running water with a fingertip. ：: The cement is immediately crushed finely and becomes sandy and can be easily removed. Δ: Cement can be removed from the surface only, but not completely. X: The cement is completely hardened and cannot be removed at all.

<Tile Sheet Dimensional Stability> Five commercially available glazed porcelain smooth tiles (trade name: PL560, manufactured by Danto) are arranged at 5 mm intervals, and from the surface side, in the same manner as the adhesive strength to tiles. Crimping was performed to obtain a sample. At this time, the pressure-sensitive adhesive sheet was attached to the tile while strongly pulling it by hand. Thereafter, the tile sheet was turned over, the interval between the tiles was measured, and the dimensional stability was determined. The evaluation criteria are as follows. ：: The interval between tiles is 5 mm, and is the initial interval. ×: The interval between tiles is reduced to 5 mm or less due to shrinkage of the base material.

[0075]

[Table 1]

First, when each example is compared with each comparative example,
JIS Z0237 when using smooth tiles and rough tiles (both are specified in JIS A5209) as adherends
180-degree peel adhesive strength conforming to 300 to 1500 gf
/ 25 mm, and a 180-degree peel adhesion based on JIS Z0237 when polyethylene is used as an adherend is 2
When it is 50 gf / 25 mm or more, it can be seen that the tile removability, the joint material adhesiveness, and the tile hanging retention are excellent (first invention).

Next, a comparison of Examples 7 and 8 with other Examples shows that Example 7, which does not use any oxycarboxylate, inhibits the hardening of the cement protruding from the surface of the roughened tile. The effect was inadequate and it took time to remove the hardened cement. Example 8 is an example in which 2 parts of an oxycarboxylate was blended, but Example 7 in which no oxycarboxylate was blended was used.
Although removal of the hardened cement is easier, it is slightly inferior to the other examples. It can be seen that the compounding of oxycarboxylic acid and oxycarboxylic acid salt in the pressure-sensitive adhesive layer can provide an effect of suppressing the hardening of cement (second invention).

Further, when Examples 1 and 9 and Reference Examples are compared, the 180-degree peel tear strength of the base material is 500 gf or more at a tensile speed of 1000 mm / min, but is excellent because the base material is not broken. You can see that. It is also found that the elongation and the Clark stiffness of the base material are preferably in specific ranges (third invention).

[0079]

The pressure-sensitive adhesive sheet for producing a tile panel according to the present invention has the following features. When producing a tile panel by the precast method, there is no falling off of the tile in the process of casting the cement on the opposite surface of the tile sheet, and in the process of peeling off after the cement is hardened, it adheres well to the joint material On the other hand, there is no adhesive residue on the tile, and it can be peeled off cleanly. . In addition, when the cement reaches the hardening from the casting of the cement, the hardening is suppressed by the oxycarboxylic acid and / or the oxycarboxylic acid salt contained in the adhesive, and the hardening of the cement leaked into the gap with the tile is suppressed. It can be easily removed. . Furthermore, since the tear strength of the base material is strong, there is no breakage, and since there is no displacement of the tile due to shrinkage of the base material,
The dimensional accuracy of the tile sheet is also good. Thus, it is a pressure-sensitive adhesive sheet for producing a tile panel which is extremely excellent in workability.

[Brief description of the drawings]

FIG. 1 is a view for explaining measurement of a 180-degree peel tear strength of a substrate.

 ────────────────────────────────────────────────── ─── Continuing on the front page (72) Inventor Masahiro Tomikanbara 27, Hirade Industrial Park, Utsunomiya City, Tochigi Prefecture F-term in the adhesive paper development laboratory of Oji Paper Co., Ltd. AA18 AB05 AC02 CA04 CB03 CC03 CE02 DA04 DB04 EA06 FA08 4J040 DF041 EF181 HB24 JA02 JA09 JB09 KA03 KA16 MA04 NA14

Claims (12)

[Claims] 1. A pressure-sensitive adhesive sheet for tile panel production comprising a base material and a pressure-sensitive adhesive layer provided on the back surface of the base material, wherein the adhesive layer has a 180-degree peel adhesion according to JIS Z0237, and the tile is bonded to an adherend. 300 to 1500 gf / 2
5 mm and 2 when polyethylene is used as the adherend.
An adhesive sheet for producing a tile panel, which is 50 gf / 25 mm or more. 2. The pressure-sensitive adhesive sheet according to claim 1, wherein the pressure-sensitive adhesive layer is a layer to which a coating liquid containing an acrylic pressure-sensitive adhesive and a crosslinking agent is applied. 3. The pressure-sensitive adhesive sheet according to claim 2, wherein the coating liquid for forming the pressure-sensitive adhesive layer is a solvent. 4. The pressure-sensitive adhesive sheet for producing a tile panel according to claim 2, wherein the crosslinking agent is an isocyanate compound. 5. An adhesive sheet for producing a tile panel, comprising a substrate and an adhesive layer provided on the back surface of the substrate, wherein the adhesive layer contains oxycarboxylic acid and / or oxycarboxylate. Adhesive sheet for producing tile panels. 6. The pressure-sensitive adhesive sheet for producing a tile panel according to claim 5, wherein the pressure-sensitive adhesive layer contains 3 to 40 parts of oxycarboxylic acid and / or oxycarboxylate with respect to 100 parts by weight of the solid content of the pressure-sensitive adhesive. 7. The pressure-sensitive adhesive sheet for producing a tile panel according to claim 5, wherein the oxycarboxylic acid and / or the oxycarboxylic acid salt is present in a powdery state in the pressure-sensitive adhesive layer. 8. The adhesive layer has a 180 ° peel adhesive strength according to JIS Z0237 of 300 when a tile is used as an adherend.
The pressure-sensitive adhesive sheet for producing a tile panel according to any one of claims 5 to 7, wherein the pressure-sensitive adhesive sheet has a thickness of from 250 gf / 25 mm to 250 gf / 25 mm when polyethylene is used as an adherend. 9. A pressure-sensitive adhesive sheet for producing a tile panel comprising a base material and an adhesive layer provided on the back surface of the base material, wherein the base material has a 180-degree peel tear strength of 1000 mm.
A pressure-sensitive adhesive sheet for producing tile panels, wherein the pressure-sensitive adhesive sheet has a g / min of 500 gf or more. 10. The pressure-sensitive adhesive sheet for producing a tile panel according to claim 9, wherein the elongation of the base material under a load of 2 kg having a width of 15 mm is 1% or less. 11. A base material according to JIS P8143.
Lark stiffness is 20cm ^Three10/100 or less.
Or the pressure-sensitive adhesive sheet for producing a tile panel according to 10. 12. The adhesive layer has a 180 ° peel adhesive strength according to JIS Z0237 of 30 when a tile is used as an adherend.
The adhesive sheet for tile panel production according to any one of claims 9 to 11, wherein the pressure-sensitive adhesive sheet has a thickness of 0 to 1500 gf / 25 mm and a thickness of 250 gf / 25 mm or more when polyethylene is used as an adherend.