JP2000328391A - Mesh fabric - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a mesh fabric having excellent alkali resistance and capable of being treated for filling in a short time. SOLUTION: This mesh fabric is characterized in that warp and weft are composed of alkali-resistant glass fibers containing >=14 wt.% of ZrO2, and the resin deposit rate is >=2 wt.% and <15 wt.%.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to various cement products,
The present invention relates to a mesh woven fabric used to prevent cracks in cement mortar or the like used for an outer wall of a building.

[0002]

2. Description of the Related Art Cement products and cement mortars used for building outer walls are liable to cracks due to drying shrinkage. If such cracks are left for a long period of time, the surface of the product gradually becomes worse. From the back to the backside, water invades from one side and leaks, and cement and mortar are easily deteriorated, which is not preferable.

For this reason, attempts have conventionally been made to embed a mesh fabric in cement or cement mortar to thereby prevent cracks from spreading.

[0004] Usually, in order to produce this kind of mesh fabric, firstly, warp yarns are formed at regular intervals using a loom,
Weft yarns are driven at regular intervals to produce a mesh-like raw fabric. Next, a thermosetting resin or a resin emulsion in which a solvent is dissolved is applied to the raw fabric, dried, solidified, and sealed.

[0005]

However, inexpensive E-glass fibers are used as the fibers of the above-mentioned mesh fabric.

[0006] However, since E glass fiber does not have alkali resistance, it is easily eroded by an alkaline substance in cement. Therefore, if there is a portion on the surface of the E glass fiber where the resin used for the sealing process is not sufficiently adhered, the portion is eroded, and as a result, the tensile strength of the mesh fabric is reduced, and the crack preventing effect is greatly reduced. It was easy to fall. Particularly, at the intersection of the warp and the weft, the resin hardly adhered to the intersection, so that it was easily eroded by the alkaline substance.

[0007] As described above, the mesh fabric using the E glass fiber is susceptible to erosion by an alkaline substance, and therefore it is necessary to adhere a resin by 20% by weight or more to impart sufficient alkali resistance.

However, when such a large amount of resin is adhered, it takes a long time to dry and solidify the resin, and the processing speed of the sealing process is reduced, so that there is a problem that productivity is significantly reduced.

An object of the present invention is to provide a mesh fabric having excellent alkali resistance and capable of performing a sealing process in a short time.

[0010]

According to the mesh woven fabric of the present invention, the warp and the weft are made of alkali-resistant glass fibers containing at least 14% by weight of ZrO ₂ , and the resin adhering rate is as follows.
It is not less than 2% by weight and less than 15% by weight.

[0011]

The mesh woven fabric of the present invention uses glass fibers having at least 14% by weight of ZrO ₂ as warp and weft and having alkali resistance. Therefore, even if an alkaline substance in cement comes into contact with the glass fibers, Glass fiber is hardly eroded, and the effect of preventing cracking of cement or mortar can be maintained for a long period of time.

[0012] Therefore, it is not necessary to use a resin for the purpose of imparting alkali resistance at the time of the sealing process, and the adhesion rate of the resin can be suppressed to less than 15% by weight (preferably less than 10% by weight). Therefore, the filling processing can be performed in a short time, and the processing cost can be reduced.

However, if the adhesion ratio of the resin is too small, the sealing process cannot be performed sufficiently, and the mesh interval tends to shift when holding the mesh fabric by hand. 3% by weight or more).

The glass fiber is surface-treated with a sizing agent at the time of spinning, and the resin adhesion rate in the present invention is determined by the amount of resin obtained by combining the sizing agent resin and the resin for filling, that is, finally, the mesh. It is determined from the amount of resin attached to the fabric.

The mesh fabric of the present invention is preferably as small as the mesh interval is easy to prevent cracks. However, if the mesh interval is too small, the productivity is reduced.
10 mm is appropriate.

The alkali-resistant glass fiber used in the present invention
A suitable composition for SiO 2 is _Two 54-65%,
ZrO_Two 14-25%, Li_TwoO 0-5%, Na_TwoO
 10-17%, K_TwoO 0-8%, RO (however, R
Represents Mg, Ca, Sr, Ba, Zn)
%, TiO_Two 0-7%, Al_TwoO_Three 0 to 2%.

The reasons for limiting the content of each component as described above are as follows.

SiO ₂ is a component constituting the skeleton of the glass and has an effect of improving the alkali resistance of the glass. However, if the content is less than 54%, the effect is reduced.
If it is more than 65%, it becomes difficult to melt the glass, which is not preferable. The preferred content of SiO ₂ is 57-64%
It is.

ZrO ₂ is a component for improving the alkali resistance of glass. However, if it is less than 14%, the alkali resistance of the glass fiber becomes insufficient and the glass fiber is easily eroded by the alkaline substance in the cement. If the amount is large, it is not preferable because melting of the glass becomes difficult. Zr
The preferred content of O ₂ is 19-24%.

The alkali metal oxides of Li ₂ O, Na ₂ O and K ₂ O all act as fluxes, promote the melting of glass, lower the spinning temperature of glass fibers, and facilitate spinning. . However, Li ₂ O is not preferable because the raw material cost is very high, and if it exceeds 5%, the cost increases. If Na ₂ O is less than 10%,
If the above-mentioned effects are small, and if it is more than 17%, the devitrification temperature of the glass becomes high and spinning becomes difficult, which is not preferable. Further, when K ₂ O is more than 8%, the devitrification temperature increases, which is not preferable. The preferred content of the alkali metal oxide is Li ₂ O 0.5 to 3%, Na ₂ O
11 to 15%, a K ₂ O 1~5%.

RO (alkaline earth metal oxide) also acts as a flux, but if it exceeds 10%, the devitrification temperature rises, which is not preferable. The preferred content of RO is 0.
2 to 8%.

TiO ₂ has the effect of lowering the devitrification temperature, but if it exceeds 7%, it becomes difficult to melt the glass, which is not preferable. The preferred content of TiO ₂ is 0.5-5%
It is.

However, if the content of Al ₂ O ₃ is too large, the devitrification temperature rises remarkably, so it is set to 2% or less, preferably 1% or less.

The type of the resin for the sealing process used in the present invention is not particularly limited, but a thermosetting resin such as a polyester resin, a melamine resin, and a vinyl ester resin, a vinyl acetate emulsion, and an acrylic resin emulsion Are suitable.

Further, the weaving method of the mesh fabric of the present invention is as follows.
Although not particularly limited, when finishing the cement mortar with a trowel during construction, even if the trowel is caught on the mesh fabric, the entangled weave is most preferred because the thread does not peel off.

[0026]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The mesh fabric of the present invention will be described below in detail based on embodiments.

Table 1 shows examples of the present invention (samples No. 1 to No. 1).
5) and a comparative example (sample No. 6) are shown. Incidentally, the sample No. 6 shows the composition of the E glass fiber.

[0028]

[Table 1]

Each sample in the table was prepared as follows.

First, a glass material is prepared so as to have the composition (% by weight) shown in the table, and this is melt-spun to obtain a glass material.
After obtaining a glass long fiber having a diameter of 13 μm, 400 glass fibers are bundled to produce a warp yarn with a count of 150 tex, and 800 glass fibers are bundled to produce a 310 tex yarn. A weft yarn was produced. The glass fibers were subjected to a surface treatment with a sizing agent containing starch, a lubricant and a softener so that the adhesion rate was 1% by weight.

Next, using the above-described warp yarn and weft yarn, a woven fabric having a mesh pitch of 5 mm and a basis weight of 122 g / m ² is produced by entangled weaving, and then a vinyl acetate emulsion is applied to the surface thereof and dried. A mesh fabric was produced by solidification. In addition, the coating amount of the vinyl acetate emulsion was adjusted so that the resin adhesion rate including the sizing agent became the value in Table 1.

From each of the thus obtained mesh fabrics, a weft thread of 6 cm in length was taken out, a cement paste was applied to the vicinity of the center thereof, and cured in a condition room at 80 ° C. and 95% RH for 4 days, and then Shimadzu Corporation Tensile strength was measured at a span of 2 cm and a tensile speed of 2 mm / min using an autograph manufactured by Toshiba Corporation.

As is clear from Table 1, Comparative Example No. No. Sample No. 6 had a tensile strength of 17 despite the resin adhesion rate of 21.0% by weight.
g / tex, but no. Each of the samples 1 to 5 has a resin adhesion rate of 8.0% by weight or less,
It was understood that the tensile strength was as high as 55 g / tex or more, and all of them had excellent alkali resistance.

[0034]

As described above, the mesh fabric of the present invention is
The use of alkali-resistant glass fiber enables quick filling process, and when this is buried in cement mortar used for various cement products and building exterior walls, cracks are prevented for a long time. It is possible to

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Claims (1)

[Claims] 1. A mesh fabric, wherein the warp yarn and the weft yarn are made of alkali-resistant glass fibers containing at least 14% by weight of ZrO ₂ , and having a resin adhesion of at least 2% by weight and less than 15% by weight.