JP5370980B2 - Crack inhibiting material for hardened cement, hardened cement, and method for producing hardened cement - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a technology capable of realizing crack suppression in concrete etc. at a low cost. <P>SOLUTION: A crack suppression material for a cement hardened body is a net-like body wherein a first yarn and a second yarn shorter than the first yarn are combined in a net-like form. Here, the ratio of the tensile stiffness of the first yarn to the tensile stiffness of the second yarn is 1.5-30. <P>COPYRIGHT: (C)2009,JPO&amp;INPIT

Description

  The present invention relates to a hardened cement body.

  For example, hardened bodies of cement compositions such as mortar, concrete, and cement paste (hereinafter referred to as hardened cement) that use hydraulic substances such as cement and blast furnace slag as binders are generated in the process of hardening of binders such as cement. It is well known that cracks are generated due to the effects of heat of hydration and self-shrinkage / dry shrinkage.

In order to suppress (prevent) such cracks, it has been proposed to embed a net made of fibers in a hardened cement body. For example, in a fiber reinforced cementitious composite board containing a mesh made of synthetic resin fibers as a reinforcing material, the mesh is woven from synthetic resin monofilament fibers, and the mesh is laminated in multiple layers. A fiber reinforced cementitious composite board characterized in that it is contained in such a state has been proposed (Japanese Patent Laid-Open No. 63-107854). Also, thickening of cement mortar, characterized in that a pile of alkali-resistant fibers is planted on a net-like sheet formed by assembling a plurality of filament yarns coated with synthetic resin in a crossed state in several axial directions. A possible fiber structure has been proposed (Japanese Patent Laid-Open No. 10-18543). Further, the warp and weft are woven into a woven structure, and the warp and weft are provided with carbon fiber yarns between alkali-resistant synthetic fiber yarns arranged at predetermined pitches. There has been proposed a reinforcing fiber structure (Japanese Patent Laid-Open No. 2003-96643) which is characterized by forming a mesh through yarns. In addition, the total area is the cross-sectional area of the longitudinal section of the concrete from the longitudinal end of at least one of the concrete having a plate-like or cylindrical shape to the position of 1/1000 to 1/3 of the short length. On the other hand, a concrete in which a mesh having an area of 0.2 to 3.0 times is included has been proposed (Japanese Patent Laid-Open No. 2005-313383).
Japanese Unexamined Patent Publication No. 63-107854 Japanese Patent Laid-Open No. 10-18543 JP 2003-96643 A Japanese Patent Laying-Open No. 2005-31383

  Now, comparing the concrete with the net embedded with the concrete without the net embedded, it was clear that cracking of the concrete with the net embedded was suppressed.

  However, although it is clear that there are fewer cracks, it was not that there were no cracks.

  Therefore, I tried to increase the amount of yarn in the net in order to further reduce cracks. In other words, it was predicted that if the amount of yarn was increased to increase the strength of the net, concrete cracks would be reduced. This was effective as it was.

  However, it has gradually become clear that the increase in the amount of yarn and the effect of suppressing cracking in concrete are not simply proportional.

  Further, increasing the yarn amount also causes an increase in cost.

  Therefore, the problem to be solved by the present invention is to provide a technique capable of suppressing cracking of concrete or the like at a low cost.

The above-mentioned problem is a material for suppressing cracking of a hardened cement body,
The crack suppressing material is a net-like body in which a first yarn and a second yarn having a shorter length than the first yarn are combined in a net shape,
This is solved by a crack suppressing material for a hardened cement body, wherein (tensile rigidity of the first yarn) / (tensile rigidity of the second yarn) is 1.5 to 30.

  Preferably, the crack suppressing material for the hardened cement body is (total area of the opening having a size of 10 mm or more and 10 mm or more in the opening in the net-like body) / (total of the net-like body) This is solved by a crack suppressing material for a hardened cement body, characterized in that the area is 0.2 to 0.9.

Preferably, the cracked material for suppressing cracking of the hardened cement body has a size of 10 mm or more in the net-like body and 10 mm or more in width (rectangular conversion area) of 100 mm ^{2 to} 10,000 mm ² . This is solved by a crack suppressing material for a hardened cementitious body.

  Preferably, the above-mentioned cement-curing material is a crack-suppressing material, and is a net-like material having four or more intersections between the first yarn and the second yarn per 10 cm square. It is solved by the crack prevention material of the body.

  Further, the above-mentioned problem is solved by a hardened cement body, wherein the hardened cement body is integrally provided with the crack suppressing material for the hardened cement body.

  In addition, in the method for producing a hardened cement body, the problem is to arrange the crack suppressing material for the hardened cement body so that the crack suppressing material for the hardened cement body is integrated with the hardened cement body. This is solved by a method for producing a hardened cement body.

  (Tension stiffness of the first yarn) / (Tension stiffness of the second yarn (second yarn having a shorter length than the first yarn)) = 1.5 to 30 Since a net-like body in which the yarns of No. 2 were combined in a net shape was used, it was possible to effectively suppress the cracking of concrete with a small amount of yarn.

  The crack suppressing material according to the present invention is a crack suppressing material for a cured body of a cement composition such as mortar, concrete, cement paste, etc., which uses a hydraulic substance such as cement or blast furnace slag as a binder. This crack suppression material is a net-like body (net-like object). A net-like body (net-like object) is a thread existing in at least two directions (in the present invention, it is simply referred to as a thread, but this is a fiber itself or a plurality of twisted fibers). Or a plurality of fibers twisted or twisted, or a string or a narrow sheet shape). And the shape (opening shape: shape of a window part) enclosed by this intersection (intersection point) is a square, a rhombus, or a rectangle, for example. Of course, not only the quadrangle as described above, but also other polygons may be used. However, if a net having a shape other than the quadrangle is to be manufactured, the cost increases. It is a quadrangular (square or rectangular, in particular rectangular) net-like body (net-like object). And in this invention, the thread | yarn which exists in the 1st direction (1st thread | yarn) and the thread | yarn which exists in a 2nd direction (2nd direction) The greatest feature is that the following relationship is established between the yarn: the second yarn having a shorter length than the first yarn. Note that the two directions are, for example, a vertical direction and a horizontal direction. When trying to make a net, generally, the longitudinal yarn is the warp and the short direction is the weft. (Tensile stiffness of first yarn (for example, longitudinal yarn: warp)) / (Tension stiffness of second yarn (for example, lateral yarn: weft)) = 1.5-30. Preferably, the value is 1.8 or more. More preferably, the value is 5 or more. Preferably, the value is 25 or less. More preferably, the value is 20 or less. That is, by using a net-like body (net-like object) configured such that (tensile stiffness of the first thread) / (tensile rigidity of the second thread) becomes the above value, cracking of the hardened cement body is suppressed. It was possible to effectively reduce the amount of yarn, and it was possible to achieve crack suppression at a low cost. Here, the tensile rigidity of the yarn is obtained by (yarn elastic modulus) × (yarn cross-sectional area). In addition, for example, when several fibers are twisted to form a thread, when the cross section is taken, there is a gap between the fibers in the cross section. However, in the case of (tensile stiffness of warp) / (tensile stiffness of weft), there is almost no problem even if the gap is ignored in the cross-sectional area of the yarn. It is a value obtained by an area determined by And in order to make it comprise so that (tensile rigidity of the 1st thread) / (tensile rigidity of the 2nd thread) in a net-like body (net-like object) may become the above-mentioned value, the tensile rigidity ratio becomes the above-mentioned value. This can also be achieved by selecting each of the above-mentioned yarns. However, when an equivalent yarn is used, it can also be achieved by considering the width of the yarn and the number of yarns. For example, when substantially the same yarn is used, this can also be achieved by using a plurality of first yarns. That is, it can also be achieved by knitting a first yarn with a ratio of N (N is an integer of 2 or more) to a second yarn. In this way, it becomes very easy to procure and store materials when manufacturing crack control materials. Therefore, it can be manufactured at a low cost.

In the crack suppressing material, preferably, (the total area of the opening having a size of 10 mm or more and 10 mm or more in the opening in the net-like body) / (total area of the net-like body) is 0. 2 to 0.9. More preferably, the value is 0.4 or more. The value is 0.8 or less. Also, the size of the transverse 10mm or more openings in the longitudinal 10mm or more (rectangular conversion area), and preferably 100mm ² ~10000mm ^2. In particular, when converted into a rectangular shape, the long side is preferably 10 mm or more. And it is 400 mm or less. More preferably, it is 15 mm or more. And it is 300 mm or less. Especially preferably, it is 20 mm or more. And it is 200 mm or less. Moreover, in the said crack suppression material, Preferably, it is a net-like body which has four or more intersections of a 1st thread | yarn and a 2nd thread | yarn per 10 cm square. More preferably, it is 20 or more. And it is 500 or less. Especially preferably, it is 40 or more. And it is 300 or less. This is because when the opening is as described above, it is difficult to adversely affect the filling of the concrete. Moreover, in the said crack suppression material, Preferably, the width | variety of a thread | yarn is about 0.1-30 mm. More preferably, it is 1 mm or more. And it is 10 mm or less. That is, the strength of the yarn that is too small is poor, and conversely, in the case of the yarn that is too wide, the integrity of the hardened cement body located on both sides of the crack suppressing material is so poor. Dimensional width yarns were preferred. Since the second yarn (weft yarn) having a short length is waved at the intersection point and positioned above and below the first yarn (warp yarn) having a long length, the first yarn ( It is preferable to make the thickness of the first yarn (warp yarn) thicker than the thickness of the second yarn (weft yarn). Further, it is preferable that the width of the first yarn (warp yarn) is wider than the width of the second yarn (weft yarn).

Synthetic fibers such as aramid fibers, carbon fibers, and glass fibers can be selected as the yarn constituting the crack suppressing material (net-like body: net-like body). That is, a fiber having a high elastic modulus is preferable. However, in view of affinity with cement and cost, glass fiber yarn is preferred. Among these, alkali resistant glass fibers are preferable. For example, a glass fiber containing 14% by mass or more of zirconium oxide (ZrO ₂ ) can be given.

  The cement hardened body according to the present invention is a hardened body of a cement composition such as mortar, concrete, cement paste and the like using a hydraulic substance such as cement or blast furnace slag as a binder. And the said crack suppression material is provided integrally. Here, the term “provided integrally” means, for example, a form in which a crack suppressing material is embedded in a kneaded mixture of an uncured cement composition, and an uncured cement composition in a mold in which the crack suppressing material is disposed. Various forms such as a form in which a kneaded product is driven and integrated, and a form in which a crack suppressing material is attached to the cement hardened body surface with an adhesive are conceivable. Of course, it is not restricted to the said form. However, the thing of the form by which the crack suppression material was embed | buried in the hardening body is the most preferable.

  The manufacturing method of the hardened cement body according to the present invention is the manufacturing method of the hardened cement body. That is, the crack suppressing material for the hardened cement body is arranged so that the crack suppressing material is integrated with the hardened cement body.

  Hereinafter, the present invention will be described in more detail.

  FIG. 1 is a schematic plan view of a part of a crack suppressing material for a hardened cement body according to the present invention.

  The present crack suppressing material has a length of several tens of meters (for example, 50 m when wound in a roll shape), for example, a length of 50 m, and is wound in a roll shape. And a crack suppression material can be arranged in a predetermined place while unwinding. The lateral direction is, for example, several centimeters to several tens of centimeters. In reality, it is not as wide as 1m. For example, it is about 15 to 20 cm. And it is made to provide a crack suppression material in multiple items | strength with respect to the cement hardened body wider than this.

  As can be seen from FIG. 1, in the longitudinal direction (vertical direction in FIG. 1), three solid (three are bundled together) glass fiber (alkali-resistant glass fiber) yarn (thread width: About 3 mm and thread thickness: about 0.7 mm are provided with an interval of about 17 to 19 mm (in FIG. 1, an interval of about 17 to 19 mm in the left-right direction). In addition, the three yarns provided in a solid state may be in contact with each other. Therefore, instead of using three yarns having a yarn width of about 3 mm, a yarn having a yarn width of 9 mm may be used. However, in this embodiment, as can be seen from FIG. 1, since three yarns having a yarn width of about 3 mm were used, although the three yarns are solidified, in reality, between the warp yarns, A slight gap, for example, a gap of about 1 mm is provided. And it is preferable from the viewpoint of crack suppression that such a slight gap and a gap between the cement compositions on both sides of the crack suppression material are integrated through the gap.

  In FIG. 1, the first, second and third yarns from the left side are set in the vertical direction, and the fourth yarn is provided in the vertical direction with an interval of about 17 to 19 mm from the third yarn. The fourth, fifth, and sixth yarns are similarly set in the vertical direction, and the seventh yarn is provided in the vertical direction with an interval of about 17 to 19 mm from the sixth yarn. The seventh, eighth, and ninth yarns are also similarly set in the longitudinal direction, and the tenth yarn is about 17-19 mm apart from the ninth yarn in the longitudinal direction. The tenth, eleventh and twelfth yarns are also similarly set in the longitudinal direction, and the thirteenth yarn is spaced about 17-19 mm from the twelfth yarn in the longitudinal direction. And the thirteenth, fourteenth and fifteenth yarns are also similarly set in the longitudinal direction. .

  In the lateral direction (left-right direction in FIG. 1), one glass fiber (alkali-resistant glass fiber) thread (thread width: about 2.3 mm, thread thickness: about 0.5 mm, thread length: about 155 mm) Is provided with an interval of about 30 to 32 mm (in FIG. 1, an interval of about 30 to 32 mm in the vertical direction). The lateral yarns are arranged so as to be reverse and front in order with respect to the vertical yarns (three yarns). That is, if weft is arranged on the first, second and third warps from the left (on the surface), the weft is arranged under the fourth, fifth and sixth warps from the left (under the back), Then, the weft is arranged on the seventh, eighth and ninth warps from the left (on the surface), the weft is arranged under the tenth, eleventh and twelfth warps (below the back), and the next 13, This is a form in which wefts are arranged on the 14th and 15th warp yarns (on the surface). Also, the weft adjacent to the above-mentioned weft is assumed to be above the first, second, third warp from the left (under the back), and above the fourth, fifth, sixth warp from the left ( Weft yarn is arranged on the top surface, and the weft yarn is arranged below the seventh, eighth and ninth warp yarns from the left (bottom of the back surface), and the weft yarn is arranged on the next tenth, eleventh and twelfth warp yarns (on the surface). Is arranged, and the weft is arranged under the next 13, 14, 15th warp yarn (under the back surface). Of course, this vertical relationship may be such that the three yarns are not one lump but one by one alternately. The warp and weft are made of a plurality of fibers. Therefore, at the intersection of the warp and the weft, the weft can be removed between the warps. That is, the warp and the weft are knitted so that the weft can be removed between the fibers of the warp. The intersection of the warp and the weft is impregnated with resin, and the warp and the weft are bonded to each other so that no deviation occurs at the intersection.

  Since the warp and weft are knitted as described above, the shape of the opening (window) formed by the four intersections of the warp and weft is substantially rectangular (longitudinal dimension: 30 to 30). 32 mm, short direction dimension: about 17 to 19 mm).

  And the net-like crack suppression material comprised as mentioned above was arrange | positioned in a formwork, the concrete composition was laid, and the cement hardening body by which the crack suppression material was embed | buried inside was obtained.

＊Ｎｏ．１のひび割れ抑制材は図１に示されたものである。但し、Ｎｏ．１のひび割れ抑制材は図１よりも縦方向に更に伸びており、図１はＮｏ．１のひび割れ抑制材の一部を示している概略平面図である。
＊Ｎｏ．１〜Ｎｏ．４は、本発明のひび割れ抑制材である。
＊Ｎｏ．５，６は、本発明外のひび割れ抑制材である。
＊引張剛性比は、（縦糸の引張剛性）／（横糸の引張剛性）である。即ち、１０ｃｍ四方当たりの（縦糸の断面積）／（横糸の断面積）である。
＊１０ｍｍ四方以上の開口部の割合は、（ひび割れ抑制材における開口部の中の縦１０ｍｍ以上で横１０ｍｍ以上の大きさの開口部の全面積）／（ひび割れ抑制材の全面積）である。 Moreover, a part of warp or weft in the crack suppression material (No. 1) is removed, or two crack suppression materials are bonded together with a resin, and the crack suppression material (No. 2) shown in Table 1 below. To No. 6).
Table-1

* No. The crack suppressing material 1 is the one shown in FIG. However, no. 1 is further extended in the vertical direction than FIG. It is a schematic plan view which shows a part of 1 crack suppression material.
* No. 1-No. 4 is a crack suppressing material of the present invention.
* No. 5 and 6 are crack control materials outside the present invention.
* The tensile stiffness ratio is (tensile stiffness of warp) / (tensile stiffness of weft). That is, (cross-sectional area of warp) / (cross-sectional area of weft) per 10 cm square.
* The ratio of openings of 10 mm square or more is (total area of openings having a size of 10 mm or more and 10 mm or more in the openings in the crack suppressing material) / (total area of the crack suppressing material).

No. 1-No. Cemented specimens (No. 1 to No. 7) in which the crack-suppressing material 6 was embedded in concrete and specimens (No. 8) in which the crack-suppressing material was not embedded in concrete were prepared. A 1151: 2002 “Testing method for drying shrinkage cracking of constrained concrete”, and generation of cracks penetrating the hardened cement body along the short direction of the hardened cement body 56 days after the start of drying The presence or absence of the sample and the molding condition of the specimen were confirmed by visual observation. The results are shown in Table-2. Specimen No. 1-No. 6 is the above-mentioned No. 6 1-No. After attaching the crack-suppressing material No. 6 to a steel bar having a diameter of 13 mm in the mold with a wire, concrete was cast to obtain a hardened cement body in which the crack-suppressing material was embedded. Specimen No. No. 7 is the above-mentioned No. By embedding the crack suppressing material of 4 in the concrete, a hardened cement body in which the crack suppressing material was embedded was obtained.
Table-2

  According to this, it can be seen that when the tensile stiffness ratio between the warp and the weft is set as in the present invention, the crack is further improved. That is, the cracking characteristics are greatly changed between the case where the tensile rigidity ratio is less than 1.5 and the case where the tensile rigidity ratio is 1.5 or more, and the tensile rigidity ratio between the warp and the weft is the same as that of the present invention. In such a case, it can be seen that cracks in the hardened cement body are further improved.

  Moreover, it turns out that the crack suppression material which made the thing of an opening part dimension, an opening part area ratio, and the number of intersections as above-mentioned has suppressed the crack generation | occurrence | production of the cement hardening body. Particularly, the present invention in which (the total area of the opening having a size of 10 mm or more in the opening and the width of 10 mm or more in the opening in the crack suppressing material) / (the total area of the crack suppressing material) is 0.2 to 0.8. Although the crack suppressing material (No. 1 to No. 3) was excellent in that the concrete did not become poorly filled even if it was placed in the mold before placing the concrete, the value was not in this range. The crack suppressing material No. 4 was not filled with concrete even if it was installed in the mold before placing the concrete.

Schematic plan view of the crack suppression material for hardened cement paste according to the present invention Katsumi Utaka

Claims (5)

A crack suppression material for hardened cement,
The crack suppressing material is a net-like body in which a first yarn and a second yarn having a shorter length than the first yarn are combined in a net shape,
(Tensile stiffness of the first yarn) / (Tensile stiffness of the second yarn) is 1.5 to 30,
Wherein said first yarn intersection of the second yarn Ri four or more organic per 10cm square,
(Total area of the opening having a size of 10 mm or more and 10 mm or more in the opening in the net-like body) / (total area of the net-like body) is 0.2 to 0.9. A material for suppressing cracks in a hardened cement body. A crack suppression material for hardened cement,
The crack suppressing material is a net-like body in which a first yarn and a second yarn having a shorter length than the first yarn are combined in a net shape,
(Tensile stiffness of the first yarn) / (Tensile stiffness of the second yarn) is 1.5 to 30,
There are four or more intersections of the first yarn and the second yarn per 10 cm square,
Cement cured body crack suppressing material the size of the net-like body is the size of the transverse 10mm or more openings in the longitudinal 10mm or more (rectangular conversion area) and wherein the <br/> is 100mm ² ~10000mm ^2. (Magnitude of the lateral 10mm or more openings in the size of the net-like body is vertically 10mm or more (rectangular conversion area) crack suppression member of hardened cement body according to claim 1, characterized in that the 100mm ² ~10000mm ² . A hardened cement body, wherein the hardened cement body is provided with the crack suppressing material of the hardened cement body according to any one of claims 1 to 3. In the method for producing a hardened cement body,
A hardened cement body, wherein the crack suppressing material of the hardened cement body is arranged so that the crack suppressing material of the hardened cement body according to any one of claims 1 to 3 is integrated with the hardened cement body. Manufacturing method.

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