JP2736394B2 - Non-woven fabric for water absorption and permeability - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a non-woven fabric sheet for use as a water-absorbent and water-permeable fabric, and more particularly to a non-woven fabric sheet used as a water-permeable fabric for a concrete form which is applied to a formwork used for concrete construction to improve the quality of concrete. .

[0002]

2. Description of the Related Art A formwork used at the time of constructing a concrete structure is used to make the surface of the concrete beautiful, that is, to remove water puddles and air bubbles generated on the surface of the formwork, to improve the durability of the concrete surface, and to use excess water. Exclusion affects the densification of the concrete composition. Therefore, Japanese Patent Application Laid-Open No. Sho 60-43528 or Japanese Patent Publication No. Sho 61-137
No. 92, etc., a porous material is attached to the inner surface of the formwork, or a hole is provided in the weir plate, and a porous material is attached thereon to release concrete bubbles to the outside, or to remove excess water. It is proposed to flow down through the holes, and in Japanese Utility Model Application Laid-Open No. 62-9642, an outer layer structure having a dense tissue density that allows moisture and air to permeate but does not allow solids such as cement particles to permeate, and a coarse structure. There has been proposed a formwork comprising a sheet of a double structure with an inner layer structure having a tissue density, and a synthetic resin plate having a group of protrusions for allowing air and water coming out through the sheet to communicate with the protrusion gap.

[0003] Further, a special feature of the document "Building Materials", vol.44, N
o. 4 (1988) and others state that `` absorbing excess water quickly,
It is effective to reach a certain amount in 30 minutes and hold the adsorbed water without releasing it, '' attaches a specially processed thick long-fiber non-woven fabric to the mold, and absorbs the water itself by absorbing the water itself. A method expected from the force is introduced, and a formwork to which a nonwoven fabric sheet of about 0.4 mm thick made of superabsorbent fibers is attached is disclosed.

By the way, in response to the above-mentioned tendency, several types of water-permeable sheets have already been put to practical use as sheets for water-permeable formwork, and it is generally desirable to quickly absorb excess moisture in concrete. In fact, it has improved the surface strength of concrete and reduced the amount of water and air pours, making the concrete surface finer and more beautiful, and has given a certain effect.

[0005] However, on the other hand, the mold is removed from the concrete surface smoothly, and how many times the water-permeable mold can be used, the uneven color appearing on the bare concrete surface and the seam of the mold are more conspicuous than usual. It has been pointed out that the design cannot be expected because it impairs aesthetics. Therefore, the present inventors have not only excellent water absorption and water permeability performance, but also rich in economy, the mold release from the mold is smooth and can be used several times, and the finish of the concrete surface is good. As a nonwoven fabric sheet to be smoothed, after a fiber layer made of synthetic fibers and a synthetic fiber base fabric are integrated by needle punching, only the surface of the fiber layer is made into a smooth layer without fuzz by thermal processing, and It has a three-layer structure of a relatively dense intermediate layer consisting of the fiber layer and the base fabric, and a back layer in which the fibers exposed on the back surface of the base fabric are integrated with the base fabric by heat treatment to form an adhesive surface. cage, overall air permeability ^{2.0~0.5 cm 3 / cm 2 / sec} , the vertical permeability of 10 ^- diameter of the extent that at ⁴ cm / sec, and is impermeable to solids of the cement paste to the surface layer portion ^{- 2-10} With small pores or fiber gaps That was proposed a non-woven fabric.
As disclosed in this publication, this nonwoven fabric improves the neutralization depth by improving the durability of the concrete surface, densifies the concrete composition by removing excess water, and improves the concrete surface. It removes water puffs and air bubbles that are generated in the air conditioner, and has shown a record of about eight uses depending on the application.

[0006]

However, when casting concrete, as described above, depending on the customer and application, the appearance of the concrete surface is required rather than the strength and densification of the concrete surface. The required properties are expanded to the uniform color and gloss of the concrete surface as well as the seam of the frame.

[0007] However, the distribution of water is not uniform due to the presence of aggregates and the like, not only in the actual concrete but also on the surface thereof. The behavior and existence of water are extremely complicated, such as trying to rise in an uneven distribution along. In addition, the water required for the hydration reaction of the cement and the excess water for improving the workability are not uniformly divided over the entire concrete as the hydration reaction proceeds, and the effect is, of course,
Appears on the concrete surface. In other words, it is no exaggeration to say that the surface is completely different depending on the location of the surface over time.

In particular, if the water-permeable sheet absorbs too much water from the concrete surface layer, that is, if the water-absorbing rate is too high, the water-absorbing sheet will cause a totally uneven water absorption phenomenon on the surface. Depending on the case, even the water necessary for the reaction may be absorbed. As a result, unevenness occurs in the state of moisture in the surface layer of the concrete, that is, in the final state, and color unevenness occurs in the dark and whitish portions on the concrete surface. Of course, most of the parts are blackish parts, and are densely lustrous parts with appropriate water absorption. (As is well known, the concrete surface when not using a water-permeable sheet is not only the presence of water pock and air pock, but also the concrete surface after demolding,
The whole area is only whitish. )

On the other hand, the head pressure varies depending on the unevenness of the water distribution and the unevenness of the lateral pressure on the water-permeable sheet, that is, the vertical position of the mold. This is something that cannot be avoided. More specifically, although the water-permeable sheet originally has water absorbency, the drainage of the water-permeable sheet in the vertical direction in the upright sheet is possible, but the drainage capacity of the water-permeable sheet in the back direction is its own. You can't have it. If anything, the water-permeable sheet has a strong property of retaining water absorbed.

[0010] However, the water-permeable sheet maintains its water-absorbing performance only after the water-absorbed water is drained, and the force for draining the water-absorbed water from the back of the water-permeable sheet is the lateral pressure on the water-permeable sheet, that is, concrete. It is the head pressure of the water inside, and is the lateral force based on fluidity that tends to behave with water such as cement, sand, aggregates, etc.
This naturally depends on the height of the concrete and the position in the vertical direction. For example, the upper part of the permeable form has little water absorption and drainage, and the concrete surface becomes whitish. Of course, the upper part of the mold has more moisture because the breathing water rises along the water-permeable sheet. Also, the lowermost portion of the formwork and the portion at the corner of the concrete have a large amount of moisture due to the effect of the aggregate and may become whitish. In making a large concrete block, the use of a water-permeable sheet form on the bottom surface makes relatively uniform pressure over the entire surface, so that no whitish portion appears and the surface is generally dark and glossy.

As described above, if the distribution of moisture and the lateral pressure on the water-permeable sheet are not uniform depending on the position of the inside of the concrete, the surface layer, and the height, the water-permeable sheet having no unevenness in water absorption performance can be realized from the concrete surface. The question arises as to whether or not the concrete surface can be finished in the water absorption and drainage.

The present invention has been made in view of the above-described actual situation, and even if there is a relationship between the water-permeable sheet and the moisture in the concrete, the fate of the problem is practically solved, and the clean concrete without color unevenness is realized. Aiming to realize the surface,
Focusing on the slow hydration reaction and the breathing behavior closely related to the movement of water, the water absorption rate and water pressure were investigated, and water was absorbed slowly. It is an object of the present invention to improve the performance of the water-permeable sheet so that the water can be drained.

[0013]

That is, the feature of the present invention that meets the above-mentioned object is that a fiber layer made of hydrophobic synthetic fiber is needle-punched so as to sandwich a synthetic fiber base fabric from both sides. After the unification, the surface layer of the fiber layer was smoothed by heat treatment in a nonwoven sheet, and the surface layer side fiber layer was given water repellency to reduce the water absorption rate and was absorbed. The water is drained through the synthetic fabric backing and the untreated portion of the fabric layer on both sides to flow through the interior of the fabric layer and to flow vertically back to the back of the fabric layer. In addition, the surface layer has a structure having pores or inter-fiber voids that do not allow the solid content of the cement paste to pass through, and specifically, the surface layer has a water absorption rate of 70 to 110.
Min, the average is about 90 minutes, vent the overall amount of non-woven fabric 1cm ³ / cm ² / sec or less, the vertical permeability of 10 <sup>- 2-10
- 4</sup> cm / sec, the water pressure resistance is in the non-woven fabric sheet is 10 to 40 cm H ₂ 0. Further, in the above configuration, in order to impart water repellency to the surface layer side fiber layer, a water repellent may be applied after the formation of the fiber layer, but usually, a fiber is formed using a hydrophobic synthetic fiber provided with a water repellent oil agent. It is preferable to form a layer, and the invention according to claim 2 is characterized by such an embodiment.

Hereinafter, the present invention will be described in more detail. As a constitution of the nonwoven fabric of the present invention, first, the surface layer of the water-permeable sheet, that is, the side in contact with the concrete, easily absorbs water only by touching the water. In other words, water absorbed over time is easily discharged out of the water-permeable sheet. Therefore, in the nonwoven fabric of the present invention, a fiber layer made of a hydrophobic synthetic fiber is used, and the surface layer is smoothed by thermal processing so as to have small holes or inter-fiber voids so as not to allow the solid content of the cement paste to pass therethrough. Gives water repellency to increase the water absorption rate from 70 to 110 minutes,
It is important that the average be around 90 minutes. If the water absorption rate is faster than that, it is difficult to improve the concrete surface described above. Originally, many synthetic fibers are hydrophobic in nature. Particularly, polypropylene fibers having strong alkali resistance and polyester fibers next to these are originally hydrophobic fibers. However, to these short fibers, an oil agent of 1% or less is uniformly applied to the fiber surface in order to enhance spinnability. This oil agent may be hydrophilic or hydrophobic (water-repellent), but if there is no special reason, it is generally advantageous to give moderate humidity to suppress the generation of static electricity. Therefore, hydrophilic oil agents are often used. Therefore, in order to make the surface layer portion of the nonwoven fabric made of these synthetic fibers water-repellent, the fiber oil agent may be made water-repellent, and the surface layer portion of the nonwoven fabric may be subjected to a water-repellent treatment.

In the nonwoven fabric of the present invention, further consideration is given to avoiding the permeation of cement particles as described above. Therefore, pores or inter-fiber voids are retained in the surface layer, but solid particles of cement generally have a particle size of 100 μm to 40 μm. Even if it is distributed in the form of a slurry, the size of the condensed particles becomes large when the slurry is formed.
An average value of about several tens μ is sufficient.

Further, the nonwoven fabric of the present invention reduces the fiber porosity by applying pressure next to the water absorption rate so that the air permeability of the whole nonwoven fabric is 1 cm ³ / cm ² / sec or less, preferably 0.5 cm ³ / cm ² / sec or less.
cm ³ / cm ² / sec, and the water pressure resistance is 10 to 40 cm H ₂
It is also necessary to make it about O. This is closely related to water absorption. That is, even though the water-permeable sheet has water absorption, it does not itself have a drainage capability through the back surface of the water-permeable sheet. Permeation (drainage) of water inside the upright water-permeable sheet along the sheet surface is caused by water flowing by gravity. Therefore, it is necessary to set the waterproof pressure to an appropriate value so that an extreme difference between water absorption and drainage does not occur due to the head pressure of the cement water depending on the vertical position of the upright formwork. When the water pressure resistance is too small, even if the water absorption (water absorption rate) of the surface layer is reduced, water absorption and drainage may occur. Also, if the water pressure is increased (for example, 50-60cm or more)
When the amount of breathing water is increased at the upper part of the mold, the head pressure is too small, and the drainage becomes insufficient. 18 as an experimental example
Concrete was poured three times into a 0 cm high permeable formwork,
No spliced part was observed at all, and although a slight whitish color unevenness was observed at the top, a mostly dark and glossy concrete surface was obtained.

Next, the total air permeability of the permeable sheet nonwoven fabric is as follows:
It depends on the pore distribution in the surface layer portion and the porosity (density) of the fiber layer, but the smaller the better, in order to absorb water slowly and little by little. Further, as the water absorption and drainage speeds increase, the diameter of the fine pores is important, and there is a risk of loosening. If the drainage is too good and the slime comes off, the concrete surface becomes whitish, and the fiber layer of the nonwoven fabric becomes dirty and clogged. If the air permeability is large, it is not preferable because the cement particles bite into the pores and the removability deteriorates.

[0018] The vertical permeability of the last present invention permeable sheet nonwoven fabric 10 ^{- 2-10 -} is suitably of the order of ⁴ cm / sec. Generally, the flow of water due to gravity drained along the surface of a non-woven fabric standing upright through the non-woven fabric is represented by the horizontal hydraulic conductivity, which is approximately one order of magnitude greater than the vertical hydraulic conductivity. That is,
10 ^- is about ² cm / sec. It should be emphasized here that water absorption needs to be maintained slowly for a long time in small amounts, but it is preferable that the water absorbed be drained easily. And, in order to have such performance, the fiber layer on the back of the base cloth may have an appropriate density,
The surface is not particularly subjected to thermal processing, and it is sufficient that the surface is lightly pressed by a heat roller.

In the above nonwoven fabric of the present invention, the water absorption rate,
The measurement of the ventilation rate and water pressure resistance is as follows respectively. (1) The water absorption rate is measured by the method A (dropping method) for measuring the water absorption rate, which indicates the water absorption of JIS-L-1096. That is, one drop of water is dropped from the buret so that the tip of the specified buret comes to a height of 1 cm from the surface of the test piece (non-woven fabric), and when the water drop reaches the test piece by the stopwatch, the water drop The time until absorption by the test piece and no special reflection is measured. (2) The measurement of the air permeability of the nonwoven fabric is based on the air permeability measurement method A of JIS-L1096. That is, using a Frazier-type testing machine, after attaching a test piece to one end of the cylinder, the pressure immediately after the test piece of the air sucked by the rheostat shows a pressure of 1.27 cm of water column on the inclined barometer. Adjust the suction fan to the right side, and use a vertical barometer to know the pressure of the air immediately after passing through the air hole in the partition wall provided in the center of the cylinder at that time, and pass the test piece from the type of air hole used. Air volume cm ³ / c
seek m ² / sec from the Appendix. (3) The measurement of the water resistance of the nonwoven fabric follows the hydrostatic method of the water resistance measurement method A (low water pressure method) of JIS-L-1092.

That is, room temperature water in a level device that can rise at a constant speed is attached to a clamp by a connecting pipe.
Connect the 15 cm square test piece so that water hits the front side (the side that is exposed to water during use), raise the level device to raise the water level, and the water level when water comes out from three places on the back side of the test piece (cm
H ₂ O) is measured. (If you do not get out of 3 places, 1
(The water level is the water level until the water comes out from one or two places, and does not take into account very small water drops that do not become large while they appear.)

[0021]

When the nonwoven fabric of the present invention is bonded to a concrete form via an adhesive backing layer with an adhesive, the water absorption rate is suppressed by selecting the air permeability and the water permeability coefficient, and the speed is reduced. Water absorption is performed while avoiding permeation of cement particles in the surface layer of the nonwoven fabric. Then, the absorbed water is drained vertically inside the nonwoven fabric toward the lower side of the mold and on the back surface in a direction perpendicular to the nonwoven fabric, and is relatively easily drained according to the water permeability coefficient. In addition, at this time, since the nonwoven fabric also has a function as a filter medium, even if cement particles slightly exist in the water absorbed through the surface layer, the nonwoven fabric is filtered by the intermediate layer, and the drained water becomes clear water.

When used by sticking to a formwork, a smooth surface layer without fluff comes into contact with the concrete surface, the mold can be easily separated, and even if the sticking on the surface is dried, it can be easily washed with water. And can withstand repeated use several times.

[0023]

Embodiments of the present invention will be described below with reference to the accompanying drawings. FIG. 1 is a partial cross section of a nonwoven fabric according to the present invention. In the figure, (1) is an intermediate layer in which a fiber layer (2) made of hydrophobic synthetic fibers and a synthetic fiber base fabric (3) are integrated by needle punching. , (4) is a surface layer smoothed by thermal processing on the surface side of the intermediate layer (1), and (5) is a needle-punched fiber layer made of hydrophobic synthetic fiber on the back surface of the base fabric of the intermediate layer (1). The back layer (5) may be a fiber layer composed of the above-mentioned fiber layer (2) and another hydrophobic fiber. This is the layer that will be the adhesive surface when the concrete form is attached.

Various fibers such as nylon, polyester, and polypropylene fibers can be used as the synthetic fibers forming the synthetic fiber fiber layer (2). The fine denier short fiber layer of polypropylene is used as the hydrophobic fiber. The most practical example is a combination of a polypropylene and a flat yarn woven fabric base fabric. In this case, the short fiber may be a normal polypropylene fiber or a fiber having a low melting point, for example, a fiber made of a normal polypropylene core and a low melting point polyester or polypropylene as a sheath. By doing so, the desired structure can be obtained.

When producing the nonwoven fabric having the above structure, the fiber layer (2) and the base fabric (3) are needle-punched and integrated, and then the surface of the fiber layer is heat-processed. The surface fiber is melted and partially smoothed to a state close to the film to form the surface layer (4), while the back side fiber layer is integrated with the base fabric by needle punching, and then the surface is gently pressed with a heat roller. It is obtained by fluffing down to form a back layer (5). In this case, thermal processing of the surface is performed by using a method of rubbing on a hot plate, infrared heating, or the like, and performing thermal processing at a temperature of about 200 ° C. for several seconds to several tens of seconds. On the other hand, it is sufficient if the back side is integrated with the base fabric by lightly pressing or shaving the surface with a heat roller so that no peeling occurs.

The features of each layer will be described below. (A) The surface of the intermediate layer (1) obtained by needle-punching the fiber layer (2) made of hydrophobic synthetic fiber and the base cloth (3) is partially close to a film by the above-mentioned thermal processing, and is fluffy. The surface layer (4) having a smooth surface with no pores is usually provided in such a size that small holes or fiber gaps do not allow the solid content of the cement paste to pass therethrough, and has appropriate air permeability and water permeability. . However, these small holes or fiber gaps are perforated so that the fluff of the internal fibers does not come out even when the nonwoven fabric is used several times.

(B) The fiber layer (2) is integrated with the base fabric (3) by needle punching, and communicates with the small holes or fiber gaps in the surface layer so that water is absorbed by capillary action. Has become. Then, the absorbed water is permeated in the horizontal direction of the nonwoven fabric and drained, and the base fabric (3) naturally plays a role in this drainage. Further, the intermediate fiber layer (1) also has a cushion function of receiving the surface pressure of concrete. When the fiber layer (2) and the base fabric (3) are needle-punched, punching is not performed from the back surface of the base fabric (3), but only from the fiber layer (2) side. It is effective to perform punching in consideration of the number of times. The base fabric (3) has a sufficient tensile strength against the force received in the nonwoven fabric production process, and
Sufficient tension and tear resistance when using the formwork may be sufficient, and a woven fabric having a relatively rough texture from the viewpoint of drainage effect is practically used.

(C) The backing layer (5) is integrated with the surface of the base fabric by performing needle punching of the fiber layer with respect to the base fabric (3) and pressing down with a heat roller to fluff the fibers. Formed as a backing layer. Then, an adhesive or the like is applied here and adhered to the mold.

Thus, the nonwoven fabric of the present invention is formed by the layer structure as described above.
0 to 800 g / m ² , thickness of about 1 mm, water absorption rate for concrete formwork of 70 to 110 minutes, average of about 90 minutes, air permeability of the whole nonwoven fabric of 1.0 cm ³ / cm ² / sec or less, vertical permeability is 10 ^{- 2-10 - 4} cm / sec, preferably 10 <sup>- 2-10
- 3</sup> Water pressure in cm / sec is formed to have a value of 10 to 40 cm H ₂ O. Of course, these values are not critical, but our experiments have shown that it is extremely effective to have a value within the above range in view of the water absorption rate and the risk of carrying the cement particles.

FIG. 2 shows an example in which the non-woven fabric having the above-mentioned structure is attached to a concrete form, and the back layer of the non-woven fabric is bonded to the inner surface of the concrete form (6) having the small holes (7). As an adhesive. In this case, when the concrete is compacted, air bubbles that emerge from the concrete (8) due to the breathing phenomenon flow from the surface layer (4) into the intermediate layer (1) as shown by the arrows without permeating the cement particles. And
It is discharged from the small hole (7) of the formwork (6) through the intermediate layer (1) and the back layer.

On the other hand, the moisture separated from the concrete during compaction of the concrete flows into the nonwoven fabric intermediate layer (1) through the surface layer (4), passes through the intermediate layer (1), passes through the lower layer and the back layer as indicated by the arrows, and forms the mold. Water is drained from the small holes (7) of the frame (6). In addition, the discharge of the air bubbles and the water downward can be performed relatively easily and slowly by specifying the air flow rate and the water permeability. Therefore, the inside surface of the mold after hardening of the concrete is finished to a beautiful surface without water flaps or air bubbles due to excess water. In fact, as described above, the nonwoven fabric of the present invention was adhered to a mold and used on a vertical surface of concrete,
Clean water was slowly drained downward, and the mold was removed after the concrete was solidified.The mold release was also quite smooth, and the solidified slag adhered to the surface.
It was easily removed by washing with water. The work of attaching the nonwoven fabric to the formwork did not cause any problem. Of course, the surface of the concrete was finished smoothly and densely, and the strength of the concrete sufficiently satisfied the expected value.

The following are specific examples of the nonwoven fabric of the present invention. The base fabric is a plain polypropylene fabric, and the fiber layer on the surface layer has a weight of 300 g / m ^{2 of} polypropylene fibers to which a water-repellent oil agent has been applied.
Front and rear of the fiber layer, the back side of the fibrous layer of the base fabric is also a weight 200 g / m ² before and after the fiber layer polypropylene fibers, a third layer was completely integrated by needle punching, the surface of the surface layer portion is thermally processed As the film became partially film-shaped, the surface became smoother and a large number of pores or inter-fiber voids were formed. (The pore size should be 10 ~ to prevent the passage of cement particles.
Although about 20 μ is desirable, an average value of several tens μ is sufficient for practical use. At this time, the fiber layer on the surface layer, the base fabric, and the fiber layer on the back side are integrated as a whole, and the performance such as the desired thickness, air permeability, and water permeability depends on the conditions of needle punch and pressurization. The thickness is about 1 depending on the conditions selected.
mm, ventilation rate 0.5 cm ³ / cm ² / sec Vertical permeability 1.9 ×
10 ^{- 2} cm / sec, a water pressure resistance of 30 cm H ₂ O, and to prepare a permeable sheet of 1 hour 28 minutes absorption rate.

In the case of the above polypropylene fiber, a water repellent oil was obtained by changing the hydrophilic oil agent mainly comprising a phosphate (phosphate) compound and a fatty acid ester to a mixture of a phosphate compound and a polyethylene wax compound. By applying 0.3 to 0.5% owf (the amount of adhering fiber to fiber), the water absorption rate of the surface layer of the water-permeable sheet nonwoven fabric was 8.2 seconds on average when a hydrophilic oil agent was used. In the case of use, it averaged 1 hour and 28 minutes. What is interesting here is that the water permeable sheet nonwoven fabric using a hydrophilic oil agent was sufficiently washed with water and air-dried, and the average water absorption rate was 1 hour and 27 minutes.

Next, the above-prepared nonwoven fabric of the present invention was attached to a water-permeable mold, and the condition of the concrete surface was examined.
Since the surface layer with smooth pores has water repellency, excess water that has springed out on the concrete surface is slowly absorbed over a long period of time in accordance with the hydration reaction and bleeding phenomenon of the cement, and the color unevenness of the concrete surface is extremely low. Demolding to a small extent resulted in a generally dark glossy surface and no concrete seams. Of course, it is better to vibrate as much as possible at the time of concrete casting and to make the inside of the concrete uniform, as a matter of course, the effect is large and the formwork is assembled so that the formwork does not bend. It is also necessary to fix it firmly with a separator.

Finally, from the viewpoint of water absorption and water pressure resistance,
The concrete surface at the top end of the water-permeable form, about 10 cm, has insufficient water absorption and may have a whitish color unevenness.If necessary, only this part of the water-permeable sheet should have an appropriate hydrophilic surface. The application was effective when applied.

[0036]

According to the present invention, as described above, a fiber layer composed of hydrophobic synthetic fibers and a synthetic fiber base cloth are formed into a layer structure such that the fiber layer sandwiches the base cloth from both sides by needle punching, and the surface layer side fiber is formed. Water repellency is imparted to the fibers of the layer, and the water absorption rate is reduced to 70 to 110 minutes in combination with the smoothing of the surface layer by thermal processing, and the ventilation volume, vertical water permeability coefficient, and water pressure resistance are each specified within a predetermined range. It is a non-woven fabric for water absorption and permeability that has been smoothed.Since it is a smooth surface layer, the mold is removed from concrete very smoothly, and the frequency of use is increased, and the surface layer with smooth pores is the water-repellent property of the fiber layer. Combined with 90 average water absorption rate
Since it is a quantile, it is possible to absorb excess water that has sprung out on the concrete surface slowly over a long period of time in accordance with the hydration reaction of the cement and the breathing phenomenon, and the color unevenness of the concrete surface is extremely reduced,
When the mold is removed, a concrete surface with a dark gloss can be generally obtained, and the seam of the concrete does not appear on the concrete surface, which has a remarkable effect of achieving a beautiful finish.

In particular, the water absorption speed is made much slower than that of the conventional nonwoven fabric, and the drainage is made easier, thereby preventing the concrete surface from becoming brittle due to the high water absorption speed and maintaining the required strength on the concrete surface. Not only that, but also because the smooth surface is brought into contact with the concrete surface, it has a remarkable effect of improving the smoothness and denseness of the concrete surface and improving the appearance finish. In addition, it is possible to use several times, and it is economical and the surface layer surface does not come out as fluff from inside even if it is used many times by dense needle punching and thermal processing, and furthermore, The base fabric and the fiber layer are integrated, and there are various advantages such that there is no fear of delamination between layers when the mold is separated, and the practical effect as a nonwoven fabric for a concrete form is extremely large. The invention described in claim 2 is extremely practical in imparting water repellency to the fiber layer on the surface layer side.

[Brief description of the drawings]

FIG. 1 is a partial side sectional view of a nonwoven fabric according to the present invention.

FIG. 2 is a partial explanatory view when the nonwoven fabric is attached to a concrete formwork.

[Explanation of symbols]

 (1) Intermediate layer (2) Fiber layer (3) Base cloth (4) Surface layer (5) Back layer

Claims (2)

(57) [Claims] 1. A fiber layer made of a hydrophobic synthetic fiber and a synthetic fiber base cloth are integrated by a needle punch, and the synthetic fiber base cloth is formed so as to be sandwiched between the hydrophobic synthetic fiber layers from both front and back sides. A nonwoven fabric in which only the fiber layer is smoothed by thermal processing, wherein the surface layer has small holes or inter-fiber voids that do not allow the solid content of the cement paste to pass through, and the surface layer side fiber layer has water repellency. have been, the absorption rate is 70 to 110 minutes, and aeration rate of the entire nonwoven fabric 1cm ³ / cm ² / sec or less, the vertical permeability ^{10 - 2 ~10 - 4 cm /} sec, a water pressure resistance the 10~40cm H ₂
A nonwoven fabric for water absorption / permeation, characterized by being 0. 2. The nonwoven fabric for water absorption / permeation according to claim 1, wherein the fiber layer on the surface layer side is made of a hydrophobic synthetic fiber provided with a water repellent oil agent.