JP2017014734A - Concrete curing method of using curing sheet - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a concrete curing method of using a curing sheet, without carelessly tearing off the curing sheet from the surface of curing concrete, capable of bringing the curing sheet into close contact with the surface of the curing concrete over a long period, without causing a residual material having influence on a concrete structure on the surface of the concrete.SOLUTION: A silicate aqueous solution is impregnated into a curing sheet 2 of laminating a water impermeable part 22 composed of a film on a surface of a water retention part 21 composed of nonwoven fabric, and a water retention 21-side surface of the curing sheet 2 impregnated with this silicate aqueous solution, is stuck to a surface of placed concrete 1, and the concrete 1 is cured.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a concrete curing method using a curing sheet.

For example, when constructing a tunnel (lining concrete) by placing concrete, moisture evaporates from the surface of the concrete being cured, and the moisture necessary for the original hydration reaction is lost. There was a problem that the compressive strength was lowered.
In order to prevent this, a curing sheet made of nonwoven fabric or synthetic resin is laid on the surface of the concrete under curing, and attempts have been made to reduce the amount of water that evaporates from the surface of the concrete under curing (for example, (See Patent Documents 1 and 2.)

Japanese Patent Laid-Open No. 10-61184 JP 2013-245526 A

  By the way, in order to reduce the amount of moisture evaporating from the surface of the concrete being cured, it is preferable to closely adhere the curing sheet to the surface of the concrete being cured, but the surface of the concrete being cured from the inside of the concrete As described in Patent Document 1, the curing sheet is made of an adhesive (or pressure-sensitive adhesive, the same applies hereinafter), and the concrete being cured is easily wetted by exuding moisture. Attempts have been made to adhere to the surface, but a thin film layer of water is likely to form at the interface between the concrete surface and the adhesive layer, and at the interface between the adhesive layer and the curing sheet. There was a problem that it was easily peeled off from the surface, and there was a problem that the adhesive could remain on the concrete surface.

  On the other hand, as described in Patent Document 2, it has been attempted to maintain water retention over a long period of time by using a curing sheet to which a water retention agent is applied, but it is bonded between the curing sheet and concrete. Since it does not generate force, there is a problem that when the curing sheet is dried, the curing sheet is easily peeled off from the surface of the concrete being cured.

  In view of the problems of the conventional curing sheet, the present invention allows the curing sheet to adhere to the surface of the concrete being cured for a long time without inadvertently peeling off the surface of the concrete being cured. An object of the present invention is to provide a method for curing concrete using a curing sheet that does not cause residues that affect the concrete structure on the surface of the concrete.

  In order to achieve the above object, the concrete curing method using the curing sheet of the present invention is to impregnate a curing sheet formed by laminating a non-water-permeable portion made of a film on the surface of a water retention portion made of nonwoven fabric with a silicate aqueous solution. The curing sheet is cured by sticking the surface of the curing sheet impregnated with the aqueous silicate solution to the surface of the placed concrete.

  In this case, a potassium silicate aqueous solution can be used as the silicate aqueous solution.

  Further, in order to achieve the same object, the concrete curing method using the curing sheet of the present invention includes a cellulose nanofiber-containing water on a curing sheet obtained by laminating a non-permeable portion composed of a film on the surface of a water retaining portion composed of a nonwoven fabric. The surface of the curing sheet side of the curing sheet impregnated with water containing cellulose nanofibers is adhered to the surface of the placed concrete, thereby curing the concrete.

  According to the concrete curing method using the curing sheet of the present invention, the concrete on which the surface of the curing part side of the curing sheet impregnated with an aqueous solution of silicate such as an aqueous solution of potassium silicate or water containing cellulose nanofibers is placed. By sticking to the surface of the concrete and curing the concrete, when the curing sheet dries, the silicate and cellulose nanofibers produce a binding force between the curing sheet and the concrete, and the curing Moisture that evaporates and dissipates from the surface of the concrete being cured by allowing the sheet to adhere to the surface of the concrete being cured for a long period of time without causing the sheet to inadvertently peel off from the surface of the concrete being cured. Can be prevented by a curing sheet, and the amount of the sheet can be reduced to keep the surface of the concrete being cured moist for a long time. Can also me coupled with the absence of the residues occurs affecting the concrete structure on the surface of the concrete, it is possible to construct a concrete structure of high quality.

It is explanatory drawing which shows one Example of the curing method of the concrete using the curing sheet of this invention. It is a graph which shows the result of having measured the load required in order to exfoliate the curing sheet stuck on the surface of the cast concrete with time.

  Hereinafter, an embodiment of a concrete curing method using the curing sheet of the present invention will be described based on the drawings.

FIG. 1 shows an embodiment of a concrete curing method using the curing sheet of the present invention.
The concrete curing method using this curing sheet is applied to, for example, concrete 1 in which a concrete is placed in a formwork and then removed from the formwork when building a tunnel (lining concrete). In this case, a curing sheet 2 formed by laminating a water impermeable portion 22 made of a film on the surface of a water retaining portion 21 made of a nonwoven fabric is used. Impregnating the fiber-containing water, sticking the surface of the curing sheet 2 side of the curing sheet 2 impregnated with this silicate aqueous solution or (and) cellulose nanofiber-containing water to the surface of the placed concrete 1, The concrete 1 is cured.
Here, the water-impermeable portion 22 is formed on the entire surface of the one surface of the water retaining portion 21.

  In this case, the nonwoven fabric constituting the water retention part 21 of the curing sheet 2 can be a synthetic fiber, a natural fiber (including pulp), a recycled fiber, or a nonwoven fabric using a mixture of these, In particular, the nonwoven fabric using cellulose fibers (short fibers) of plant-based regenerated fibers can generate a large binding force between the curing sheet 2 and the concrete 1 due to the fine cellulose fibers, and synthetic fibers can be used. Each non-woven fabric has a high strength and can be preferably used.

  Moreover, the film which comprises the water-impermeable part 22 of the curing sheet 2 can use the film made from synthetic resins, such as polyolefin resin.

  And the nonwoven fabric which comprises the water retention part 21 of the curing sheet 2, and the film which comprises the water-impermeable part 22 of the curing sheet 2 are laminated | stacked and integrated by lamination process.

  Potassium silicate and sodium silicate can be used as the silicate used in the silicate aqueous solution impregnated in the water retention part 21 of the curing sheet 2. In particular, the potassium silicate is combined with the cement component of the concrete 1. By doing so, since it does not cause a whitening phenomenon on the surface of the concrete 1 when dried, it can be suitably used.

  Similarly, the cellulose nanofibers used in the water containing cellulose nanofibers impregnated in the water retention part 21 of the curing sheet 2 are general-purpose cellulose nanofibers (CNF), for example, a high aspect ratio having a width of 4 to 100 nm and a length of 5 μm or more. General purpose cellulose single nanofibers (CSNF) having a ratio can be used.

According to the concrete curing method using this curing sheet, the surface of the curing sheet 2 side of the curing sheet 2 impregnated with the aqueous solution of silicate solution or cellulose nanofiber is adhered to the surface of the placed concrete 1. Then, the concrete 1 is cured.
Thereby, when the surface of the concrete 1 is sufficiently wet, the flexible curing sheet 2 is applied to the surface of the concrete 1 due to the surface tension of moisture existing between the surface of the concrete 1 and the curing sheet 2. By sticking and adhering, the silicate aqueous solution or cellulose nanofiber-containing water impregnated in the water retention part 21 of the curing sheet 2 uniformly penetrates into the concrete 1 from the surface of the concrete 1, and the young age of the concrete 1 Moisture sometimes required can be supplied, and the water-impermeable portion 22 of the curing sheet 2 can prevent the moisture from escaping from the surface of the concrete 1.
And as time passes, the water retention amount of the curing sheet 2 decreases, and the curing sheet 2 dries, so that the surface tension of moisture existing between the surface of the concrete 1 and the curing sheet 2 is weakened. Salt and cellulose nanofibers cause a binding force between the curing sheet 2 and the concrete 1 (the cellulose fibers (short fibers) of plant-based regenerated fibers are used for the nonwoven fabric constituting the water retaining portion 21 of the curing sheet 2). By using a non-woven fabric, fine cellulose fibers can generate a large bonding force between the curing sheet 2 and the concrete 1.), The curing sheet 2 is inadvertently peeled off from the surface of the concrete 1 being cured. The curing sheet 2 can be brought into close contact with the surface of the concrete 1 being cured over a long period of time.
As a result, moisture that tends to evaporate and dissipate from the surface of the concrete 1 being cured can be prevented by the curing sheet 2, and the amount thereof can be reduced to keep the surface of the concrete 1 being cured for a long time. In addition, a high-quality concrete structure can be constructed in combination with the fact that no residue that affects the concrete structure is generated on the surface of the concrete 1.
Then, the curing sheet 2 peeled off from the surface of the concrete 1 after the curing of the concrete 1 is finished, simply impregnates the water retaining portion 21 of the curing sheet 2 or, if necessary, again with the silicate aqueous solution or It can be reused by impregnating with water containing cellulose nanofibers.
In addition, it is a biodegradable material which uses wood pulp as a raw material by using the nonwoven fabric using the cellulose fiber (short fiber) of plant-type reproduction | regeneration fiber for the nonwoven fabric which comprises the water retention part 21 which comprises the curing sheet 2. In this respect, there is an advantage that there are few restrictions on the disposal of the curing sheet 2 after use.

  Hereafter, the result of having conducted verification experiment about the curing method of the concrete using the curing sheet of this invention is shown.

[Demonstration experiment]
Test construction was conducted on the secondary lining concrete of the canal tunnel with the following contents.
・ Concrete: Nominal strength 21 N / mm ² , slump 15 cm, maximum aggregate size 20 mm, blast furnace cement type B (21-15-20BB)
・ Curing conditions:
After placing the concrete, it was demolded the next day, and a curing sheet was stuck to the surface until the age of 28 days to cure the concrete.
Here, the curing sheet is a non-woven fabric using cellulose fibers (short fibers) of plant-based regenerated fibers (Futamura Chemical Co., Ltd., plain type, variety 406, basis weight 60 g / m ² , thickness 0.37 mm, water retention 654 A non-water-permeable part made of a polypropylene resin film with a thickness of 20 μm is laminated and integrated on the surface of a water-retaining part made of a 100% cellulose non-binder nonwoven fabric manufactured by a wet short fiber spunbond method of 100% by lamination. A curing sheet was used.
Further, in the water retention part of the curing sheet, a silicate aqueous solution (about 2 to 5% (in this example, 3.3%) potassium silicate aqueous solution) or cellulose nanofiber-containing water (with respect to 100 g of water) Cellulose single nanofiber (CSNF) 0.1 to 0.3 g (in this example, cellulose nanofiber-containing water) containing 0.2 g), curing sheet containing the silicate aqueous solution or cellulose nanofiber The surface of the curing sheet side impregnated with a saturated state by dipping in water and impregnated with this aqueous silicate solution or cellulose nanofiber-containing water was adhered to the surface of the placed concrete.
The water retention part of the curing sheet is saturated with water by immersing the curing sheet in water, and the surface of the curing sheet impregnated with this water is placed on the surface of the placed concrete. The adhered one was used as a comparative example.
・ Results of demonstration experiment Figure 2 shows the load required to peel off the curing sheet adhered to the surface of the placed concrete (5 cm x 5 cm test piece cut out and perpendicular to the curing sheet adhered to the concrete surface. The result of having measured time-dependently the load which a curing sheet peels when the peeling force of a direction is applied is shown.

The example (silicate aqueous solution: NNC500, cellulose nanofiber-containing water: CSNF) was compared with the comparative example (water) on both the wet and dry surfaces of the cast concrete. It was confirmed that the load required to peel off the stuck curing sheet showed an extremely large value.
In addition, after the water retaining part of the curing sheet is impregnated with cellulose nanofiber-containing water and adhered to the surface of the placed concrete, the curing sheet peeled off from the concrete surface simply impregnates the water retaining part of the curing sheet with water. It was confirmed that it was possible to cope with multiple reuses.

  The concrete curing method using the curing sheet of the present invention has been described based on the examples. However, the present invention is not limited to the configurations described in the above examples, and does not depart from the spirit of the present invention. The configuration can be changed as appropriate.

  The method of curing concrete using the curing sheet of the present invention can adhere the curing sheet to the surface of the concrete being cured for a long time without the curing sheet being inadvertently peeled off from the surface of the concrete being cured. At the same time, since there is no residue that affects the concrete structure on the surface of the concrete, it can be used widely and suitably for concrete curing applications, including the construction of tunnels (lining concrete). it can.

DESCRIPTION OF SYMBOLS 1 Concrete 2 Curing sheet 21 Water retention part 22 Non-water-permeable part

Claims (3)

  A curing sheet formed by laminating a non-water-permeable portion made of a film on the surface of a water-retaining portion made of nonwoven fabric is impregnated with a silicate aqueous solution, and the surface on the water-retaining portion side of the curing sheet impregnated with the aqueous silicate solution is A curing method for concrete using a curing sheet, characterized in that the concrete is cured by sticking to the surface of the concrete.   The method for curing concrete using a curing sheet according to claim 1, wherein a potassium silicate aqueous solution is used as the silicate aqueous solution.   A surface of the water-retaining part of the curing sheet impregnated with cellulose nanofiber-containing water is impregnated with a curing sheet obtained by laminating a non-water-permeable part made of a film on the surface of a water-retaining part made of nonwoven fabric. A concrete curing method using a curing sheet, characterized in that the concrete is cured by sticking to the surface of the placed concrete.

Images