JPH06287085A - Pad for curing concrete and method for curing using the same pad for curing concrete - Google Patents

Abstract

PURPOSE:To enable the maintenance of a concrete surface in good wet conditions without drying the surface while removing breathing water by sandwiching a water absorbing material between a water-impermeable sheet and a water-permeable sheet. CONSTITUTION:This pad 1 for curing concrete is obtained by applying and forming a water-permeable sheet 4 composed of nonwoven fabric, etc., capable of adsorbing unhardenable fine particles while permeating breathing water on the undersurface of a water absorbing material 3, capable of absorbing and holding the breathing water floating on the concrete surface and having 0.5-2mm thickness and forming a water-impermeable sheet 2 capable of preventing the breathing water, absorbed and held by the water absorbing material 3 from evaporating on the top surface of the water absorbing material 3. This pad 1 is placed on a concrete surface just after placing thereof until the concrete is set and hardened to prevent the water-cement ratio in the upper layer of the concrete from increasing and the concrete surface from drying.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a concrete curing pad capable of performing wet curing suitable for concrete and a curing method using this concrete curing pad.

[0002]

2. Description of the Related Art Concrete mixes and hardens due to the hydration reaction of kneaded cement and water. Solid particles with a large specific gravity settle down due to the effect of gravity until the concrete is placed and hardened. On the other hand, a phenomenon called breathing occurs in which water with a small specific gravity rises. As a result, water called breathing water floats up on the surface of the cast concrete, and in addition, in concrete, the upper layer has more water, that is, the water-cement ratio is larger, and the lower layer has water-cement ratio. The ratio becomes smaller.

For example, in a slab having a thickness of 18 cm,
It is also obtained that the water cement ratio of the upper layer is 8 to 5.5% larger than that of the lower layer of concrete. When the water-cement ratio is small, the pores (small holes) are densely formed inside the concrete to increase the strength of the concrete. On the contrary, when the water-cement ratio is large, the pores inside the concrete are coarsely formed and the concrete is strengthened. The strength of is reduced. Therefore, as described above, setting and hardening of concrete in a state where the water-cement ratio is non-uniform in the vertical direction has a great influence on the strength characteristics of the concrete.

On the other hand, when the surface of the concrete immediately after pouring and before hardening and hardening is exposed to the strong sunlight of the sun or the high temperature of the outside air, the hydration reaction between cement and water will occur. This was not surely performed, and the strength was also deteriorated.

[0005]

However, in the case of concrete cast on site, there is a risk of freezing in severe winter, and in special cases such as when the water-cement ratio of concrete is extremely small. , No special measures have been taken for concrete curing. At best, it is only possible to water the concrete surface in hot weather.

Further, even in the case of a cylindrical concrete specimen molded for conducting a compressive strength test of concrete, etc., after the concrete is substantially hardened, it is taken out of the molding form and subjected to a strength test in water at about 20 ° C. The standard curing is performed by leaving the concrete in place, but no special curing is performed for 2 to 3 days required for hardening of the concrete until the standard curing is performed. Therefore, concrete curing is performed by performing suitable curing. It cannot be said that the maximum characteristics of various characteristics such as compressive strength that can be exerted are accurately evaluated.

Further, from the concrete, non-hard particles called "latance" are floated together with the breathing water and adhere to the concrete surface. This non-hardening fine particle becomes an obstacle when various treatments such as coating are applied to the concrete surface, and an obstacle when the cement paste is applied to smooth the end surface of the concrete specimen during the compressive strength test. It took a lot of time and labor to peel the hard particles from the concrete surface.

The present invention has been devised in view of the above-mentioned points, and it is possible to remove breathing water, which is unfavorable for the hardening of concrete, and to keep the surface in a suitable wet state without drying it. , Even if it is a concrete specimen for strength test, it can be cured so that it can accurately exhibit the original characteristics of concrete,
It is an object of the present invention to realize a concrete curing pad that does not require the work of removing non-hardening fine particles and a curing method using this concrete curing pad.

[0009]

In order to achieve the above-mentioned object, a concrete curing pad of the present invention comprises a water-absorbing material which absorbs and holds breathing water floating on the concrete surface, and a water-absorbing material which is adhered and formed on the lower surface of the water-absorbing material. A water-permeable sheet made of a non-woven fabric or the like that adsorbs non-hard particles that float on the concrete surface together with the breathing water while permeating the breathing water, and a coating that prevents evaporation of the breathing water formed on the upper surface of the water-absorbing material and absorbed by the water-absorbing material. It is characterized by consisting of a body.

Further, the curing method using the concrete curing pad of the present invention comprises a water absorbing material which absorbs and retains breathing water floating on the concrete surface, and a breathing water which is formed on the lower surface of the water absorbing material while permeating the breathing water. With a water-permeable sheet made of non-woven fabric or the like that adsorbs non-hard particles that float on the concrete surface, and a concrete curing pad consisting of a coating that prevents evaporation of breathing water that is absorbed and held by the water-absorbing material formed on the water-absorbing material upper surface,
The concrete is characterized in that it is placed on the concrete surface immediately after pouring until the concrete is solidified and hardened to prevent an increase in the water-cement ratio in the concrete upper layer and to prevent the concrete surface from drying.

Then, the water absorbing material and the fine particle adsorbent are positioned in the upper opening of the sample forming mold for forming the concrete sample for concrete strength test, and the covering is engaged with the sample forming mold. Good.

Further, a polymer water absorbing agent may be used as a water absorbing material which absorbs and holds breathing water.

[0013]

A water-absorbing material that absorbs and retains breathing water that floats on the concrete surface, and a non-woven fabric that is adhered to the lower surface of the water-absorbing material and that absorbs the non-hard particles that float on the concrete surface together with the breathing water while permeating the breathing water. A concrete curing pad composed of a water-permeable sheet made of, etc., and a coating formed on the upper surface of the water-absorbing material to prevent evaporation of breathing water absorbed and held by the water-absorbing material,
By placing the concrete on the surface of the concrete immediately after setting until it hardens and hardens,
Absorption of breathing water that floats on the concrete surface with hardening prevents the water-cement ratio in the upper layer of concrete from increasing, and prevents the concrete surface from drying and curing in a suitable wet state for concrete. be able to. As a result, the water-cement ratio of concrete is reduced substantially uniformly in the vertical direction, and the strength is increased. Further, the non-hard particles that float up together with the breathing water are adsorbed by the water-permeable sheet when the breathing water is absorbed by the water-absorbing material, and are not adhered to the concrete surface.

Also, the water absorbing material and the fine particle adsorbent are positioned in the upper opening of the sample forming mold for forming the concrete sample for concrete strength test, and the covering is engaged with the sample forming mold. As a result, the maximum characteristics can be accurately evaluated with respect to various characteristics such as compressive strength that can be exhibited by the concrete of the concrete specimen.

[0015]

1 is a partially cutaway perspective view of a concrete curing pad of the present invention.

In the figure, 1 is a concrete curing pad of the present invention, 2 is a water-impermeable sheet made of water-impermeable synthetic resin sheet, 3 is a polymer water absorbent such as polyacrylic, which is adsorbed on paper, pulp or the like. The water absorbing material having a thickness of about 0.5 to 2 mm and a diameter of about 10 cm, 4 is a water permeable sheet made of non-woven fabric, and the concrete curing pad 1 sandwiches the water absorbing material 3 between the impermeable sheet 2 and the water permeable sheet 4. It is configured by

FIG. 2 is a cross-sectional view showing another embodiment of the concrete curing pad of the present invention.
Instead, a water-impermeable cap 6 having an engaging portion 6a that engages with the brim 5b of the upper opening 5a of the sample molding frame 5 of FIG. 3 is provided with polyethylene terephthalate (PET).
The water-absorbent material 3 and the water-permeable sheet 4 are adhered to the water-impermeable cap 6 at approximately the center below the water-impermeable cap 6.

As shown in FIG. 3, the concrete curing pad 1 of the present invention having the above-described structure is impermeable to water by allowing the water-permeable sheet 4 and the water-absorbing material 3 to contact the upper surface of the concrete 7 of the sample molding frame 5. The engaging portion 6a of the cap 6 is hooked and fixed to the brim 5b. In this state, the concrete is left to stand for several hours to several days until it hardens and hardens.

Then, the breathing water floating on the surface of the concrete 7 is absorbed by the water absorbing material 3 and gelled, so that the water absorbing material 3 can surely retain water without leaking water again. Further, the water-impermeable sheet 4 and the water-impermeable cap 6 prevent water from evaporating from the water absorbent material 3. in this way,
If the water absorbent material 3 that retains water is placed on the concrete surface, it can be used as a curing sheet.

In the concrete curing pad 1 of the present invention, the ratio of water cement to concrete is 61%.
The water absorbing material 3 absorbs 1.7 to 6.8 liters of breathing water per m ² . Then, comparing the concrete compressive strengths when the curing method using the concrete curing pad of the present invention is carried out and when the concrete curing pad is not used, as shown in the graph of the compressive strength of FIG. The compressive strength is better when the pad curing method is used.

The concrete curing pad 1 of the present invention may be used as a curing sheet by preliminarily immersing it in water to retain water in the water absorbing material 3.

Further, in the present embodiment, the polymeric water absorbing agent was used as the water absorbing material, but it is not limited to this, of course, and it can be gelled and retain water by absorbing water. However, other substances may be used.

[0023]

As described above in detail, according to the concrete curing pad of the present invention and the curing method using this concrete curing pad, a water absorbing material which absorbs and holds breathing water floating on the concrete surface, and the water absorbing material. A breathable sheet formed of a non-woven fabric or the like that adheres to the lower surface and adsorbs non-hard particles that float on the concrete surface together with the breathing water while permeating the breathing water, and a breathing material formed on the upper surface of the water absorbent that absorbs and retains the water absorbent. By placing a concrete curing pad consisting of a coating that prevents evaporation of water on the concrete surface immediately after pouring until the concrete sets and hardens, it floats on the concrete surface as the concrete sets and hardens. Water in the upper layer of concrete is absorbed by the absorbent material absorbing breathing water. Thereby preventing the placement ratio increases, to prevent drying of the concrete surface can be cured at a suitable wet state for concrete. As a result, the water-cement ratio of concrete is reduced substantially uniformly in the vertical direction, and the strength is increased. In addition, non-hard particles that float with breathing water,
When breathing water is absorbed by the water-absorbing material, it is adsorbed by the water-permeable sheet and does not adhere to the concrete surface.Therefore, it is not necessary to spend a great deal of time and effort on the work of peeling the non-hardening particles from the concrete surface. is there.

In addition, the water absorbing material and the fine particle adsorbent are positioned in the upper opening of the sample forming mold for forming the concrete sample for concrete strength test, and the covering is engaged with the sample forming mold. This makes it possible to accurately and accurately evaluate the maximum characteristics of various characteristics such as compressive strength that can be exhibited by the concrete of the concrete specimen.

[Brief description of drawings]

FIG. 1 is a partially cutaway perspective view of a concrete curing pad of the present invention.

FIG. 2 is a cross-sectional view showing another embodiment of the concrete curing pad of the present invention.

FIG. 3 is a cross-sectional view showing a usage state of the concrete curing pad of the present invention.

FIG. 4 is a graph showing the compressive strength of concrete.

[Explanation of symbols]

 1 Concrete curing pad 2 Water impermeable sheet 3 Water absorbing material 4 Water permeable sheet 5 Specimen molding form 5a Upper opening 6 Water impermeable cap 7 Concrete

Claims (4)

[Claims] 1. A water-absorbing material that absorbs and retains breathing water that floats on the surface of concrete, and adsorbs non-hard particles that adhere to the lower surface of the water-absorbing material and that permeate the breathing water and that float on the concrete surface together with the breathing water. A concrete curing pad comprising: a water-permeable sheet made of a non-woven fabric or the like; and a cover formed on the upper surface of the water-absorbent material to prevent evaporation of breathing water absorbed and held by the water-absorbent material. 2. A water absorbing material that absorbs and retains breathing water that floats on the concrete surface, and a non-woven fabric that is formed on the lower surface of the water absorbing material and that absorbs the non-hard particles that float on the concrete surface together with the breathing water. Concrete is cured and hardened on the concrete surface immediately after placing a concrete curing pad consisting of a water-permeable sheet composed of the above and the like, and a cover formed on the upper surface of the water-absorbing material to prevent evaporation of breathing water absorbed and retained by the water-absorbing material. A curing method using a concrete curing pad, characterized in that it is placed for up to 2 hours to prevent an increase in the water-cement ratio in the concrete upper layer and to prevent the concrete surface from drying. 3. The covering body engages with the sample forming mold by positioning the water absorbing material and the fine particle adsorbent in the upper opening of the sample forming mold for forming a concrete sample for concrete strength test. The concrete curing pad according to claim 1, wherein: 4. A polymer water absorbing agent is used as a water absorbing material that absorbs and holds breathing water.
Described concrete curing pad.