JP2019131423A - Concrete-curing tape - Google Patents

Abstract

To provide a concrete-curing tape: used for curing a concrete placed in a civil engineering and construction, such as a road, pavement in airport, an open space, and pavement inside a factory; and excellent in workability, thermal-insulation properties, resistance to degradation, and a quality in a concrete surface, together with moisture retention during curing.SOLUTION: This invention relates to a concrete-curing tape having a base material layer and an adhesive layer, wherein: the base material layer includes a reinforcing layer and a heat-insulating layer; and elongation at tensile load of 5 N is 20% or less. Preferably, bending resistance is 4-25 cm.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a concrete curing tape, and more particularly to a concrete curing tape used for curing concrete placed in civil engineering construction work on roads, airport pavements, plazas, factory pavements, and the like.

  Conventionally, in concrete construction, the curing of concrete keeps the humidity and temperature of the concrete surface in an appropriate state for a predetermined period after placing, and also protects the concrete surface from temperature differences due to outside air temperature, solar radiation, wind, etc. It is important to improve the quality of the concrete surface.

  For example, in the case of ridges and resin sheets used for curing, there is a problem that the work target is difficult to cure on the wall surface and ceiling surface, and the work efficiency at the time of sticking is poor. Therefore, Patent Document 1 proposes a curing tape having an adhesive layer that is excellent in workability at the time of application. However, the temperature of the concrete surface is increased by solar radiation, and there is a risk of cracking due to a temperature difference from the inside of the concrete. In addition, the adhesive layer deteriorates due to solar radiation, and there is a possibility that adhesive residue may be generated when peeling after curing. In addition, wrinkles are likely to occur on the concrete curing tape during construction, and air bubbles are likely to enter between the concrete curing tape and the concrete, resulting in uneven curing of the concrete, and not only the surface of the concrete becomes patchy but also less durable There was also a fear.

JP 2002-255670 A

  This invention solves the above-mentioned problem, and it aims at providing the concrete curing tape which is excellent in not only the moisture retention during curing but also workability, heat insulation, deterioration resistance, and concrete surface quality.

  The present invention is a concrete curing tape having a base material layer and an adhesive layer, wherein the base material layer contains a reinforcing layer and a heat insulating layer, and the elongation under 5N tensile load is 20% or less. .

  Moreover, it is preferable that the bending resistance of a concrete curing tape is 4-25 cm.

  Moreover, it is preferable that a base material layer also contains a water-impermeable film.

  The concrete curing tape of the present invention is excellent not only in moisture retention during curing, but also in workability, heat insulation, deterioration resistance, and concrete surface quality.

It is a cross-sectional schematic diagram which shows the concrete curing tape which is an example of embodiment of this invention. It is a cross-sectional schematic diagram which shows the concrete curing tape which is another example of embodiment of this invention.

The concrete curing tape of the present invention has a base material layer including a reinforcing layer and a heat insulating layer and an adhesive layer, and the elongation at the time of 5N tensile load is 20% or less, so that the adhesive layer adheres to the concrete surface during curing. Excellent moisture retention because it is difficult for moisture to escape, and wrinkles and bubbles are difficult to enter during application during curing. In addition, even when pulled strongly, it is difficult to cut, and the work at the time of sticking and removal is easy. In addition, since the concrete curing tape contains a heat insulation layer, it is less susceptible to the effects of solar radiation in the summer and cold air in the winter, as well as the temperature difference between day and night, and is less susceptible to cracking due to shrinkage and expansion of the concrete surface. Moreover, it is excellent also in the deterioration resistance of the adhesion layer by solar radiation heat.
The concrete curing tape of the present invention has an elongation under a 5N tensile load of 20% or less in both the vertical direction (hereinafter also referred to as the longitudinal direction) and the horizontal direction (hereinafter also referred to as the short direction).

  FIG. 1 shows an example of a concrete curing tape 1 of the present invention. As shown in FIG. 1, the concrete curing tape 1 of the present invention has a base material layer 2 and an adhesive layer 3, and the base material layer 2 contains a reinforcing layer 5 and a heat insulating layer 4.

  Adhesive layer 3 is a layer for adhering concrete curing tape 1 to concrete, has good adhesion to concrete, etc., is hardly deteriorated by solar heat or ultraviolet rays, and does not peel off even when wet (adhesion) A pressure-sensitive adhesive resin that maintains its properties and has removability is preferable. Examples of the adhesive resin include polyolefin, polyacrylic, polyurethane, polyester, silicone, and natural / synthetic rubber-based adhesive resins. Among them, polyacrylic resins are easily mixed with additives. Therefore, the above performance is easily adjusted and the workability is good, which is preferable in terms of workability. Moreover, in order to demonstrate the adhesiveness to the concrete surface containing the water | moisture content after concrete placement, if adhesive resin with hydrophilic property is used, adhesiveness can be exhibited more efficiently.

  In addition, the adhesive force to the concrete of the adhesion layer 3 has the preferable range of 2-10N / cm. If it is 2N / cm or more, it is easy to maintain the covering state even on the ceiling surface or wall surface during curing, and if it is 10N / cm or less, it can be easily peeled off when peeling the concrete curing tape after curing, and The adhesive is less likely to remain on the object to be cured.

Moreover, as a provision amount of the adhesion resin of the adhesion layer 3, 10-100 g / m < ² > is preferable. If it is 10 g / m ² or more, sufficient adhesive strength is easily obtained, and if it is 100 g / m ² or less, the adhesive is less likely to remain on the object to be cured when the concrete curing tape is peeled after curing, and it is economical. .

  Furthermore, as thickness of the adhesion layer 3, 10 micrometers-1 mm are preferable. When the thickness is 10 μm or more, sufficient adhesive strength is easily obtained. When the thickness is 1 mm or less, the adhesive is difficult to remain on the object to be cured when the concrete curing tape is removed after curing.

  Considering stable adhesion with the pressure-sensitive adhesive layer 3 when performing pressure-sensitive adhesive processing, if there are significant irregularities on the surface of the base material layer, or if there is fluff, etc., there is a risk of point adhesion, line adhesion, As the primer layer, it is preferable to smooth the substrate surface by resin coating or smooth film lamination.

  The concrete curing tape of the present invention includes an adhesive layer 3 and a base material layer 2, and the base material layer 2 includes a reinforcing layer 5 and a heat insulating layer 4.

Examples of the reinforcing layer 5 include sheet-like woven fabrics, knitted fabrics, spunbonded nonwoven fabrics, net-like sheets, cross sheets, and films. It is preferable that the elongation at the time of 5N tensile load of the reinforcing layer 5 is 20% or less because the elongation of the concrete curing tape can be easily adjusted to the elongation in the range. Moreover, it is preferable from a viewpoint of workability that the bending resistance is 4-25 cm.
The net-like sheet is a net-like sheet obtained by crossing a split and tape-like film into a polygonal shape such as a lattice or a spider web, and bonding the intersections. Registered trademark, manufactured by Sekisui Film Co., Ltd.) and Walliff (registered trademark, manufactured by JX ANCI Corporation).

  Moreover, it is preferable that the reinforcement layer 5 is a substantially smooth sheet shape. For example, when a sheet material with unevenness of 1 mm or more such as a bubble cushioning material (air cellular) becomes the reinforcement layer 5, it is applied to the concrete surface after curing. There is a risk that this uneven pattern will remain. The surface unevenness of the reinforcing layer 5 is more preferably 0.5 mm or less, and further preferably 0.3 mm or less.

  The material in the case where the reinforcing layer 5 is a woven fabric, a knitted fabric, or a spunbonded nonwoven fabric is not particularly limited. For example, a polyolefin fiber such as a homopolymer or copolymer such as ethylene, propylene, or butene, polyethylene terephthalate, polyethylene Polyester fibers such as 2,6-naphthalate, polyamide fibers such as nylon 6, nylon 12 and copolymer nylon, polyvinyl alcohol fibers such as polyvinyl alcohol fiber and ethylene-vinyl alcohol copolymer, polyurethane, polyurethane urea, amine -1 type (s) or 2 or more types can be used from polyurethane fiber, such as a urethane copolymer. Of these, polyolefin fibers are preferred from the viewpoints of economy, productivity, and durability.

  The material in the case where the reinforcing layer 5 is a net-like sheet, a cross sheet, or a film is not particularly limited. For example, polyolefin fibers such as homopolymers or copolymers such as ethylene, propylene, and butene, polyethylene terephthalate, Polyester fibers such as polyethylene 2,6-naphthalate, polyamide fibers such as nylon 6, nylon 12, copolymer nylon, polyvinyl alcohol fibers such as polyvinyl alcohol fibers and ethylene-vinyl alcohol copolymers, polyurethane, polyurethane urea, 1 type (s) or 2 or more types can be used from polyurethane fiber, such as an amine-urethane copolymer. Of these, polyolefin fibers are preferred from the viewpoints of economy, productivity, and durability.

  As necessary, the reinforcing layer 5 includes an ultraviolet absorber, a light stabilizer, an antioxidant, a flame retardant, a heat stabilizer, a water repellent, a water absorbent, a rust inhibitor, a copper-resistant damage stabilizer, and an antistatic agent. , Pigments, colorants, plasticizers, end-capping agents, lubricants, organic lubricants, chlorine scavengers, blocking agents, viscosity modifiers, etc. can be applied by dipping treatment, coating, etc. in combination of one or more. it can.

  As the heat insulating layer 4, bulky needle punch, melt blow, nonwoven fabric such as spun lace, round knitting such as cardboard knit, warp knitting such as double raschel, bulky knitted fabric, glass wool, rock wool, cotton, wool, etc. Examples include felts made of natural fibers, felts made of synthetic fibers such as polyester and nylon, and resin foam sheets.

  Examples of the resin used for the resin foam sheet include polyolefin resins such as homopolymers or copolymers such as ethylene, propylene, and butene, polyester resins such as polyethylene terephthalate and polyethylene 2,6-naphthalate, nylon 6, nylon 12 and the like. , Polyamide resins such as copolymer nylon, polyvinyl alcohol resins such as polyvinyl alcohol resins and ethylene-vinyl alcohol copolymers, and polyurethane resins such as polyurethane, polyurethane urea and amine-urethane copolymers. One or more of them can be used. Among these, a polyolefin resin is preferable from the viewpoint of the balance between thickness and heat insulation performance, economical efficiency, and productivity, and more preferably a closed cell structure crosslinked with an electron beam or the like.

  The base material layer 2 includes a reinforcing layer 5 and a heat insulating layer 4. Furthermore, you may laminate | stack a water-impermeable film as needed. As used herein, “non-permeable” refers to the property of preventing the permeation of moisture, and “non-permeable film” refers to a film having a water pressure resistance of 5 kPa or more in accordance with the JIS L 1092 B method. Say.

For example, it is preferable to laminate a water-impermeable film on the surface layer side of the reinforcing layer 5 because the heat retention effect and the moisture retention effect are excellent even in strong winds.
On the other hand, by laminating a water-impermeable film between the heat-insulating layer 4, that is, between the heat-insulating layer 4 and the pressure-sensitive adhesive layer 3, a gap is formed between the pressure-sensitive adhesive layer 3 and the base material layer 2 even when peeling is repeated. Since it is hard to generate | occur | produce and a water | moisture content does not enter easily, it can suppress that the adhesion layer 3 tears or a glue residue generate | occur | produces, and is preferable.
In FIG. 2, the example which laminated | stacked the water-impermeable film 6 on the surface layer side of the reinforcement layer 5 and the adhesion layer side of the heat insulation layer 4 is shown.

  Specific examples of the water-impermeable film 6 include polyolefin resins such as homopolymers or copolymers such as ethylene, propylene, and butene, amorphous polyolefin resins such as cyclic polyolefin, polyethylene terephthalate, polyethylene 2,6-naphthalate. Polyester resins such as nylon 6, nylon 12, polyamide resins such as copolymer nylon, polyvinyl alcohol resins such as polyvinyl alcohol resin and ethylene-vinyl alcohol copolymer, polyurethane, polyurethane urea, amine-urethane copolymer One type or two or more types can be used from the polyurethane resins such as the above. Of these, olefin resins are preferred from the viewpoints of economy and productivity. More preferably, polypropylene is preferable from the viewpoint of durability.

  For the water-impermeable film 6, an ultraviolet absorber, a light stabilizer, an antioxidant, a flame retardant, a heat stabilizer, a rust inhibitor, a copper damage stabilizer, an antistatic agent, a pigment, a colorant, if necessary. , Plasticizers, end-capping agents, lubricants, organic lubricants, chlorine scavengers, blocking agents, viscosity modifiers and the like can be used alone or in combination of two or more.

The water-impermeable film 6 may be metal-treated, and the treatment form is not particularly limited. For example, a method of incorporating a metal into the water-impermeable film 6 by kneading or the like, a layered metal and a water-impermeable film The method of laminating | stacking the film 6 is mentioned. From the viewpoint of durability, a method of containing a metal in the water-impermeable film 6 is preferable, and from a viewpoint of heat shielding properties, a method of laminating a layered metal and the water-impermeable film 6 is preferable.
In addition, since heat shielding properties are imparted, it is possible to reflect solar radiation in summer and cold air in winter and to keep the heat of hardening of the concrete warm, so that it is easy to suppress temperature changes on the concrete surface.

Examples of the lamination method of the reinforcing layer 5 and the heat insulating layer 4 include a method of applying an adhesive resin on the entire surface such as an extrusion T-die method, dry lamination, and wet lamination, and a method such as ultrasonic welding and thermal lamination. However, thermal lamination is preferably employed from the viewpoint of adhesive strength and productivity.
Further, when the water-impermeable film 6 is laminated with the reinforcing layer 5 or the heat insulating layer 4, the extrusion T-die method is preferably employed from the viewpoint of adhesive strength, productivity, and economy, although not particularly limited. The

  If the elongation under 5N tensile load in the longitudinal direction and the short direction of the concrete curing tape is 20% or less, wrinkling can be suppressed during the construction of the concrete curing tape, and the work becomes easy and workability is improved. Excellent. Preferably, it is 10% or less. Further, the elongation at the time of 10N tensile load is preferably 100% or less, and more preferably 50% or less.

  Moreover, if the bending resistance in the longitudinal direction and the short direction of the concrete curing tape is 4 cm or more, it will have an appropriate harsh feeling, and the generation of wrinkles and bubbles during construction can be suppressed. It is preferable in terms of productivity, transportability, and work efficiency.

  The base material layer 2 may include layers other than those described above as long as the idea of the present invention is not disturbed.

  The concrete curing tape of the present invention is produced by laminating the base material layer 2 and the adhesive layer 3. Examples of lamination methods include comma coating, knife coating method, gravure roll coating method, roll coating method, flexo coating method, spray spray coating method, etc., and in particular, from the viewpoint of productivity and coating amount accuracy. A coating method is preferably employed.

Moreover, you may provide the release layer which has peelability and friction resistance in the surface on the opposite side to the adhesion layer 3 side of the base material layer 2, ie, the surface on the opposite side to the concrete side. Examples of the release layer include a fluorine resin, a silicone resin, and a long chain alkyl resin. The coating amount is preferably 0.1 to 2.0 g / m ² . If it is less than 0.1 g / m ² , the self-back surface adhesive strength is strong, and when it is rolled up, the release layer on the surface of the concrete curing tape and the adhesive layer 3 may block and cause damage to the base material layer 2 If it is 2.0 g / m ² or more, the self-back surface adhesive strength becomes too weak, and it is easy to peel off from the part where the applied curing tapes are stacked and bonded together, and it may become impossible to keep the moisture.

  Moreover, you may provide another layer in the range which does not inhibit the thought of this invention to a concrete curing tape, for example, a heat shield layer, a water retention layer, etc. are mentioned. As a heat-shielding layer, metal is deposited on films such as polyolefin, polyester, polyurethane, polystyrene, and polyvinyl chloride so that infrared rays are reflected, and metal is included during printing, coating or coating of metal-containing ink. Can be used. As the water retention layer, a nonwoven fabric, a woven fabric or other base material with a water-absorbing resin fixed thereto, or a fiber integrated with a fiber can be used.

  The thickness of the concrete curing tape is preferably 0.5 to 5 mm, more preferably 1 to 3 mm. If it is 0.5 mm or more, a firm feeling and a firm feeling for construction can be obtained. Moreover, if it is 5 mm or less, productivity, workability, and transportability will improve.

The weight per unit area of the concrete curing tape is preferably 100 to 500 g / m ² . If it is 100 g / m ² or more, fluttering due to the influence of wind during construction can be reduced, and if it is 500 g / m ² or less, productivity, workability, and transportability are improved.

  The maximum tensile load in the longitudinal direction and the short direction of the concrete curing tape is preferably 10 N or more. If it is 10N or more, it is easy to work because it is easy to deploy at the time of construction, and workability is improved. Also, if the maximum tearing load in the longitudinal direction and the short direction of the concrete curing tape is 10 N or more, it is difficult to tear when it comes into contact with protrusions during construction, and when peeling after curing, without being damaged, Workability is good and preferable.

  It is preferable that the tensile elongation at break in the longitudinal direction and the short direction of the concrete curing tape is 100% or less. If it is 100% or less, even if a very strong force is applied at the time of construction, the elongation does not become too large, so the workability is not inferior.

  Since the concrete curing tape has excellent heat insulation properties, it can alleviate the effects of solar heat in the summer and cold air in the winter, suppress the temperature change of the concrete surface, hardly cause cracks due to expansion and contraction, and is an adhesive layer 3 is also excellent in resistance to deterioration. Specifically, the thermal conductivity of the concrete curing tape is preferably 0.5 W / m · K or less.

  As a product of a concrete curing tape, it is preferable that the width is 40 to 150 cm and the length of one roll is 10 to 50 m. In particular, the width of 40 to 70 cm and the length of one roll of 20 to 30 m are preferable in terms of workability and transportability.

EXAMPLES Hereinafter, although an Example is given and this invention is demonstrated, this invention is not necessarily limited to these Examples.
The physical properties and evaluation in Examples and Comparative Examples were performed by the following methods and are shown in Table 1.

<Measurement method>
1. Thickness [μm]
The measurement was performed according to JIS K73111.5.1.2 (thickness).

2. Mass per unit area [g / m ² ]
The measurement was performed according to JIS L1096.8.3 (mass per unit area).

3. Maximum tensile load [N]
In accordance with JIS K7311 5 (1995) (tensile test), the maximum load until the test piece was cut was read in each of the longitudinal direction and the short direction.

4). Maximum tear load [N]
In accordance with JIS K7311 6 (1995) (tear test), the maximum load until the test piece was cut was read for each of the longitudinal direction and the short direction.

5.5N Tensile Load Elongation, 10N Tensile Load Elongation [%]
In accordance with JIS K7311 5 (1995) (tensile test), a test piece with a marked line distance L ₀ (20 mm) was attached to a tensile tester so that the distance between the grips was 40 mm, and tension was started. A load was applied at a speed of 300 mm per minute, and when the load reached 5 N, the marked line distance L was measured. The elongation E under tensile load was calculated by the equation E = (L−L ₀ ) / L ₀ × 100. Measurements were made in each of the longitudinal direction and the lateral direction. The same applies when the load is 10N.

6). Tensile elongation at break [%]
In accordance with JIS K7311 5 (1995) (tensile test), the elongation when the specimen was cut was read for each of the longitudinal direction and the transverse direction.

7). Bending softness (cm)
The measurement was performed according to JIS L 10968.8.21.1A (2010) (cantilever method) with respect to the longitudinal direction and the lateral direction with the adhesive surface facing upward.

8). Adhesive strength [N / cm]
Ready-mixed concrete (77 parts by weight of instant concrete made by Toyo Materan Co., Ltd. mixed with 23 parts by weight of water) was placed in a 13 mm x 30 mm x 125 mm formwork and allowed to stand at 25 ° C for 24 hours. The measured test plate was used and measured according to JIS Z0237 10 (2009) (adhesive strength 180 ° peeling).

<Evaluation method>
1. Moisturizing property 20 mL of purified water was dropped into a glass petri dish, and then left on the glass petri dish with the adhesive layer side of each concrete curing tape 10 cm × 10 cm, that is, the side in contact with the concrete during curing. A reflex lamp (100 V, 500 W) was irradiated from a height of 50 cm on the surface of each specimen, assuming solar radiation in summer, and the water retention rate after 1 hour was calculated by the following formula. It evaluated according to the following evaluation criteria from the calculated water retention.
[formula]
Water retention [%] = (weight of concrete curing tape and petri dish 1 g after dropping purified water [g] −weight of concrete curing tape and petri dish before dropping purified water [g]) / (immediately after dropping purified water) Weight of concrete curing tape and petri dish [g]-Weight of concrete curing tape and petri dish before dropping purified water [g]) × 100
(Evaluation criteria)
○: The water retention rate after 1 hour is 80% or more Δ: The water retention rate after 1 hour is 50% or more and less than 80% ×: The water retention rate after 1 hour is less than 50%

2. Workability for concrete structure A concrete curing tape having a width of 700 mm was applied to the concrete structure, and the workability was evaluated according to the following evaluation criteria.
(Evaluation criteria)
◯: No breakage during construction, good followability to corners and good elasticity of the base material, and the concrete structure can be easily covered without wrinkles.
(Triangle | delta): It does not tear at the time of construction, but the followability with respect to a corner | angular part and the firmness of a base material are a little good, and although some wrinkles generate | occur | produce, a concrete structure can be covered.
X: It tears at the time of construction, the followability with respect to a corner | angular part, and the elasticity of a base material are bad, and it is difficult to cover a concrete structure.

3. Thermal insulation The thermal conductivity (W / (m · K)) was measured according to JIS A 1412-2 using HC-074 / 200 manufactured by Eihiro Seiki Co., Ltd. Based on the measurement results, evaluation was made according to the following evaluation criteria.
(Evaluation criteria)
○: Thermal conductivity is less than 0.45 W / (m · K) Δ: Thermal conductivity is 0.45 W / (m · K) or more and less than 0.50 W / (m · K) ×: Thermal conductivity is 0.00. 50W / (m · K) or more

4). Degradation resistance evaluation (adhesive residue)
Ready-mixed concrete (77 parts by weight of instant concrete made by Toyo Materan Co., Ltd. mixed with 23 parts by weight of water) was placed in a 20 mm x 90 mm x 300 mm size mold and left at 25 ° C for 24 hours. The test piece cut into 50 mm x 90 mm was pasted together, and irradiated with a sunshine weather meter (manufactured by Suga Test Instruments Co., Ltd.) for 2 hours / cycle at 100 cycles, and then an adhesive (glue) The remaining was confirmed.
(Evaluation criteria)
A: There is no adhesive remaining on the concrete surface, and there is no change in appearance.
○: The pressure-sensitive adhesive remains on the concrete surface and is not visible from a position 1 m away.
Δ: There is some adhesive residue on the concrete surface, but it is not visible from a position 3 m away.
X: The pressure-sensitive adhesive residue on the concrete surface is very large and visible from a position 3 m away.

5). Concrete surface quality The following evaluation was made for the presence or absence of irregularities on the surface of the concrete curing sheet (base material weave, stitch, embossed pattern, bubble cushioning polka dot pattern, adhesive layer pattern, etc.) obtained by the above degradation resistance evaluation Evaluation was made according to criteria.
(Evaluation criteria)
○: The surface quality of the concrete is smooth and there is no change in appearance.
(Triangle | delta): The concrete surface quality is smooth, there are few external appearance changes, and it is a grade which is not known from the position 3 m away.
X: The surface quality of the concrete is not smooth or smooth, but the unevenness of the curing sheet (base material weaving, stitching, embossed pattern, bubble cushioning polka dot pattern, adhesive layer pattern, etc.) is 3 m or more away It can be recognized from the position.

[Example 1]
Polyethylene cloth sheet (Ebara Kogyo Co., Ltd., weaving density: vertical 14 / 2.54cm, horizontal 14 / 2.54cm) as a reinforcing layer, polyethylene electron beam cross-linked 30 times expanded sheet 1mm (Toray Industries, Inc. A layer obtained by laminating these by a heat laminating method was obtained as a base material layer. In addition, the 5N tensile load elongation of the reinforcing layer was 7%, and the bending resistance was 6 cm.
Next, the coating amount after drying acrylic pressure-sensitive adhesive (0.6 parts by weight of Seden Chemical AL curing agent to 100 parts by weight of Seiden Chemical D202) on the heat insulating layer surface of the base material layer is 50 g / It was coated so as to be m ^2, tackified layer having a thickness of 35 [mu] m, to obtain a concrete curing tape.
In addition, the longitudinal direction of a base material layer, ie, the longitudinal direction of a concrete curing tape, is a winding direction when making a concrete curing tape cylindrical.

[Example 2]
A base material layer obtained by laminating a high-density (HD) polyethylene film 15 μm obtained by extrusion T-die method on the heat insulating layer surface of Example 1 as a water-impermeable film and by heat laminating method is obtained. It was.
Subsequently, the adhesive layer was provided to the said water-impermeable film surface similarly to Example 1, and the concrete curing tape was obtained.

[Example 3]
The thickness of 50 μm in which the polyethylene cloth sheet surface of the base material layer of Example 2 was further incorporated with 3 parts by weight of aluminum particles having a particle diameter of 5 μm with respect to 100 parts by weight of the film-molded resin base material by extrusion T-die method. The polyethylene film was laminated as a water-impermeable film through a low density (LD) polyethylene resin 15 g / m ² (adhesive resin), and an HD polyethylene film 15 μm obtained by extrusion T-die method was applied to the heat insulating layer side. A water-permeable film laminated by a heat laminating method was obtained as a base material layer.
Next, after 3 g / m ² of a release layer resin (linear alkyl release agent) is applied to the LD polyethylene film surface of the base material layer, the other surface of the base material layer (HD polyethylene film surface) is applied. As in Example 1, an adhesive layer was applied to obtain a concrete curing tape.

[Example 4]
Polyester spunbond nonwoven fabric 70 g / m ² (Toyobo Co., Ltd., Ecule 3701A) is used as a reinforcing layer, polyethylene electron beam cross-linked 30-fold foamed sheet 1 mm (Toray Industries, Inc., Toraypef) is used as a heat insulating layer, and these are heat laminated. To obtain a laminate. On the other hand, an unstretched polypropylene film having a thickness of 20 μm was formed by an extrusion T-die method to obtain a water-impermeable film. This water-impermeable film was laminated on the reinforcing layer side of the laminate via LD polyethylene resin 15 g / m ² (adhesive resin) to obtain a base material layer. In addition, the 5N tensile load elongation of the reinforcing layer was 11%, and the bending resistance was 9 cm.
Subsequently, the adhesion layer was provided to the heat insulation layer surface similarly to Example 1, and the concrete curing tape was obtained.

[Comparative Example 1]
A base material layer was obtained by forming a polyethylene film having a thickness of 60 μm containing 5 parts by weight of titanium oxide particles having a particle diameter of 1 μm with respect to 100 parts by weight of the film-molded resin base material by an extrusion T-die method.
Next, in the same manner as in Example 3, a release layer was provided on one side of the base material layer, and an adhesive layer was further provided on the other side to obtain a concrete curing tape.

[Comparative Example 2]
A base material layer obtained by laminating 15 μm of HD polyethylene film obtained by extrusion T-die method on the convex surface of a 4.0 mm thick air cellular buffer sheet (Sakai Chemical Co., Ltd., Minapack # 401). It was.
Subsequently, the adhesive layer was provided to the HD polyethylene film surface of the base material layer in the same manner as in Example 1 to obtain a concrete curing tape.

[Comparative Example 3]
A base layer was obtained by forming an unstretched polypropylene film having a thickness of 65 μm by an extrusion T-die method.
Next, in the same manner as in Example 3, a release layer was provided on one side of the base material layer, and an adhesive layer was further provided on the other side to obtain a concrete curing tape.

[Comparative Example 4]
Polyester yarn 550dtex / 288f (manufactured by NAN YA), 3 yarns twisted at 80T / m, used for warp and weft, plain weave (density: warp 27 / inch, weft 25 / inch) What produced this was obtained as a base material layer.
Next, in the same manner as in Example 3, a release layer was provided on one side of the base material layer, and an adhesive layer was further provided on the other side to obtain a concrete curing tape.

  As shown in Table 1, all of the concrete curing tapes according to the examples have an elongation at 5N tensile load of 20% or less, all of moisture retention, workability, heat insulation, deterioration resistance, and surface quality of the concrete. It was an excellent concrete curing tape.

  On the other hand, the concrete curing tape according to the comparative example was inferior in one or more evaluations among moisture retention, workability, heat insulation, deterioration resistance and surface quality of the concrete.

  Various embodiments are possible for the present invention. The above-described embodiments and examples are for explaining the present invention and do not limit the scope of the present invention.

DESCRIPTION OF SYMBOLS 1 Concrete curing tape 2 Base material layer 3 Adhesive layer 4 Heat insulation layer 5 Reinforcement layer 6 Water-impermeable film

Claims (3)

  A concrete curing tape having a base material layer and an adhesive layer, wherein the base material layer contains a reinforcing layer and a heat insulating layer, and the elongation under 5N tensile load is 20% or less.   The concrete curing tape according to claim 1, wherein the bending resistance is 4 to 25 cm.   The concrete curing tape according to claim 1 or 2, wherein the base material layer also contains a water-impermeable film.