JP2016196751A - Water-proofing and corrosion-resistant structure and method for concrete structure - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a water-proofing and corrosion-resistant structure for concrete structures, capable of maintaining high water-proofing and water-resistant properties even when cracks occur in substrate concrete.SOLUTION: An elastic sheet is disposed between substrate concrete and an anticorrosive material of epoxy resin disposed on the substrate concrete. The elastic sheet includes a nonwoven fabric or a fibrous sheet adjacent to the anticorrosive material of epoxy resin.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a waterproof and anticorrosive structure for a concrete structure and a waterproof and anticorrosive method for a concrete structure.

  As a waterproof and anticorrosive structure for concrete structures and a waterproof and anticorrosive method for concrete structures, for example, a crystal growth agent layer is formed on the surface of a cement structure, and then an acrylic resin-based or epoxy resin-based waterproof / anticorrosive resin is used. There is known a waterproof and anticorrosive structure for concrete which is applied to form a waterproof and anticorrosive resin layer and a method for producing the same (for example, see Patent Document 1).

JP 2005-2608 A

  In the waterproof and anticorrosive structure of concrete as described above, the crystal growth agent layer and the waterproof and anticorrosive resin layer formed on the concrete structure have very poor deformation followability with respect to the underlying concrete, so when cracks occur in the underlying concrete. May cause cracks in the crystal growth agent layer and the waterproof and anticorrosive resin layer. If cracks occur in the crystal growth agent layer and the waterproof and anticorrosive resin layer, sulfuric acid or organic acid enters the base concrete side from the cracks to corrode the base concrete, or the adhesiveness of the waterproof and anticorrosive resin layer is reduced and waterproof. There exists a subject that there exists a possibility of promoting peeling and swelling of a corrosion-resistant resin layer.

  The present invention has been made in view of such conventional problems, and the object of the present invention is to provide a waterproof and anticorrosive structure for a concrete structure and a concrete structure that maintains high waterproof and anticorrosive properties even if cracks occur in the underlying concrete. Is to provide a waterproof and anticorrosion method.

  In order to achieve this object, the waterproof and anticorrosive structure for a concrete structure according to the present invention is provided with an elastic sheet between the base concrete and the epoxy resin-based anticorrosive material provided on the base concrete, A waterproof and anticorrosive structure for a concrete structure, comprising a nonwoven fabric or a fibrous sheet on the epoxy resin anticorrosive material side.

  According to such a waterproof and anticorrosive structure for a concrete structure, since an elastic sheet is provided between the base concrete and the epoxy resin anticorrosive material, even if the base concrete is deformed or displaced with cracks, It is possible to prevent the elastic sheet provided between the epoxy resin-based anticorrosive material from acting as a buffer material and causing cracks in the epoxy resin-based anticorrosive material. Moreover, it is possible to more reliably join the epoxy resin anticorrosive and the elastic sheet by the nonwoven fabric or the fibrous sheet provided in the elastic sheet. For this reason, it is possible to provide a waterproof and anticorrosive structure for a concrete structure that maintains high waterproof and anticorrosive properties even if cracks occur in the underlying concrete.

  In such a waterproof and anticorrosive structure for a concrete structure, it is desirable that a primer is interposed between the foundation concrete and the elastic sheet.

  According to such a waterproof and anticorrosive structure of a concrete structure, since the primer is interposed between the ground concrete and the elastic sheet, the adhesion between the ground concrete and the elastic sheet is improved, and the elastic sheet is attached to the ground concrete. It is possible to adhere more reliably.

  In such a waterproof and anticorrosive structure for a concrete structure, it is preferable that a silicate-based coated waterproofing material is interposed between the foundation concrete and the elastic sheet.

  According to such a waterproof and anticorrosive structure for a concrete structure, since the silicate-based waterproofing material is interposed between the ground concrete and the elastic sheet, the backwater generated at the interface between the ground concrete and the elastic sheet It is possible to suppress damage caused by swelling or peeling of the epoxy resin-based anticorrosive material due to the above.

  In such a waterproof and anticorrosive structure for a concrete structure, it is desirable that the elastic sheet is waterproof.

  According to such a waterproof and anticorrosive structure for a concrete structure, it is possible to suppress swelling and peeling of the epoxy resin anticorrosive material due to the back water even with an elastic sheet having waterproofness.

  In such a waterproof and anticorrosive structure for a concrete structure, it is preferable that the elastic sheet has an adhesive layer on the base concrete side.

  According to such a waterproof and anticorrosion structure for a concrete structure, since the elastic sheet includes the adhesive layer, the elastic sheet can be easily attached to the foundation concrete.

  Also, an elastic sheet pasting step of pasting a plurality of elastic sheets provided with a nonwoven fabric or a fibrous sheet on the opposite side of the base concrete, with the ends of the adjacent elastic sheets stacked on top of the base concrete, and pasting Applying a base material adjusting material on the elastic sheet and leveling a step due to the overlapping elastic sheet; and an anticorrosive material applying step applying an epoxy resin anticorrosive material on the base material. A waterproof and anticorrosive construction method for a concrete structure characterized by comprising:

  According to such a waterproof and anticorrosion method for a concrete structure, an epoxy resin-based anticorrosive material is applied by applying a base material adjusting material on a plurality of elastic sheets that are bonded with the end portions of adjacent elastic sheets stacked on top of each other. This makes it possible to easily realize a waterproof and anticorrosion structure in which cracks are unlikely to occur in the epoxy resin-based anticorrosive material even if the underlying concrete undergoes deformation or displacement accompanied by cracks. Moreover, since the level | step difference which arises when an elastic sheet is piled up by the base-material adjustment material apply | coated on an elastic sheet, a clearance gap does not arise easily between an elastic sheet and an epoxy resin type anticorrosion material. For this reason, it is possible to form a waterproof and anticorrosive layer that is less likely to be damaged.

  Moreover, by using an elastic sheet provided with a nonwoven fabric or a fibrous sheet, it is possible to more reliably join the epoxy resin-based anticorrosive material to the elastic sheet. That is, it is possible to provide a waterproof and anticorrosion method for a concrete structure that maintains high waterproof and anticorrosion properties even if cracks occur in the underlying concrete.

  ADVANTAGE OF THE INVENTION According to this invention, it is possible to provide the waterproofing corrosion prevention structure of a concrete structure and the waterproofing corrosion prevention method of a concrete structure in which high waterproofing corrosion resistance is maintained even if a crack arises in foundation concrete.

It is a figure which shows the waterproofing corrosion prevention structure of the concrete which concerns on this invention. It is a figure which shows the procedure of the waterproofing corrosion prevention method of the concrete structure which concerns on this invention. It is a figure which shows the result of a crack followable | trackability test. It is a figure which shows the test piece used for the crack followable | trackability test. It is a figure which shows the waterproofing anti-corrosion structure of concrete suitable for wet concrete.

  Hereinafter, an embodiment according to the present invention will be described in detail with reference to the drawings.

  In the present embodiment, an example in which the waterproof and anticorrosive structure for a concrete structure according to the present invention is applied to, for example, an underlying concrete 1 that forms the bottom of an underground pit made of reinforced concrete will be described.

  As shown in FIG. 1, the waterproof and anticorrosive structure for a concrete structure of the present embodiment is provided with a rubber sheet 3 as an elastic sheet on the surface of the ground concrete 1 via a primer 2, and the base material is adjusted on the rubber sheet 3. A material 4 is provided, and an epoxy resin-based anticorrosive material 6 having resistance to sulfuric acid, organic acid, or the like is provided on the surface of the base material adjusting material 4 via a primer 5.

  The rubber sheet 3 is a sheet made of, for example, butyl rubber, and an adhesive layer 3a is provided on the lower surface so as to be attached to the base concrete 1 side, and a nonwoven fabric 3b and a fibrous sheet are integrally provided on the upper surface. Yes.

Since the area of one rubber sheet 3 is sufficiently smaller than the area of the floor of the underground pit, when constructing the floor of the underground pit, a plurality of rubber sheets 3 are used and the ends of the rubber sheets 3 adjacent to each other are used. The rubber sheets 3 are arranged so that the portions overlap each other so that no gap is generated.
The base material adjusting material 4 is, for example, a polymer cement mortar or a resin putty, and is applied to the surface of the rubber sheet 3 so as to level the steps generated by overlapping the rubber sheets 3.

  The epoxy resin-based anticorrosive material 6 is applied to the base material adjusting material 4 so as to overlap with the base material 4 via the primer 5.

  As shown in FIG. 2, for example, as shown in FIG. 2, for example, the waterproof and anticorrosive construction method for constructing the waterproof and anticorrosive structure of the concrete structure of the present embodiment first cleans the surface of the underlying concrete 1 that forms the floor and performs a junker treatment ( Surface pretreatment step S1), and then primer 2 is uniformly applied to the surface of the ground concrete 1 by roller brushing (primer application step S2).

  Next, the release paper of the rubber sheet 3 is peeled off to expose the adhesive layer, and a plurality of rubber sheets 3 are applied onto the base concrete 1 to which the primer 2 is applied so that the ends of the adjacent rubber sheets 3 overlap each other. Affix and spread all over the floor (elastic sheet affixing step S3). The spread rubber sheet 3 is sufficiently pressed by a hand roller or the like.

  Next, the base material adjusting material 4 is applied on the spread rubber sheet 3 (base material adjusting material application step S4). The base material adjusting material 4 is applied to the surface of the other rubber sheet 3 almost uniformly while leveling the level difference caused by the rubber sheets 3 being overlapped. At this time, when a polymer cement mortar is used as the substrate preparation material 4, the primer 5 is applied to the surface thereof. On the other hand, when the resin putty is used, the primer 5 is not applied.

  Finally, the epoxy resin anticorrosive material 6 is applied (corrosion preventive material application step S5). The epoxy resin-based anticorrosive material 6 is applied by layering 3 to 4 layers by roller brushing or the like.

  As an effect of preventing the occurrence of cracks by the waterproof and anticorrosive structure of this concrete structure, the results of a crack follow-up test are shown. FIG. 3 shows a test piece used in the crack followability test, and FIG. 4 shows the result of the crack followability test.

  In the crack followability test, a cut 7a is provided only on one surface side along a direction orthogonal to the longitudinal direction at a substantially center in the longitudinal direction of the rectangular flexible substrate 7, and the both surfaces of the cut 7a are provided on the other surface. Thus, a test piece 9 on which the anticorrosive coating film 8 is formed is prepared. The anticorrosive coating film 8 formed on the test piece 9 is (1) only the epoxy resin-based anticorrosive material 6 is applied (2) a polymer cement waterproofing material is provided between the epoxy resin-based anticorrosive material 6 and the flexible substrate 7. Things (3) There were three types, one in which the rubber sheet 3 was provided between the epoxy resin anticorrosive material 6 and the flexible substrate 7, and four test pieces 9 were prepared for each. Here, every test piece 9 is provided with four layers of the epoxy resin-based anticorrosive material 6.

  In the crack followability test, the test piece 9 on which the anticorrosive coating film 8 is formed is provided with a clip gauge (not shown) on the cut 7a of the flexible substrate 7, and the anticorrosive coating film 8 has a surface on both sides of the cut 7a. A strain gauge (not shown) is pasted so as to extend, and both ends of the test piece 9 provided with the clip gauge and the strain gauge in the longitudinal direction of the flexible substrate 7 are pulled with a tensile tester. At this time, the portion where the flexible substrate 7 is broken at the notch 7a is regarded as a crack, and the followability of the subsequent anticorrosive coating 8 and the occurrence of the crack are confirmed.

  As a result of the crack follow-up test, (1) the test piece 9 provided with the anticorrosive coating film 8 coated only with the epoxy resin anticorrosive 6 is shown in FIG. The food coating film 8 was broken to follow 0.01 mm. (2) The test piece 9 provided with the anticorrosive coating film 8 provided with a polymer cement waterproofing material between the epoxy resin anticorrosive 6 and the flexible substrate 7 is formed of the flexible substrate 7 as shown in FIG. After breaking, the anticorrosive coating film 8 broke up to 0.9 mm. (3) The test piece 9 provided with the anticorrosive coating 8 provided with the rubber sheet 3 between the epoxy resin-based anticorrosive 6 and the flexible substrate 7 breaks the flexible substrate 7 as shown in FIG. Then, the anticorrosive coating film 8 followed without breaking 5 mm or more.

  As described above, according to the waterproof and anticorrosive structure for a concrete structure of the present embodiment, the rubber sheet 3 is provided between the base concrete 1 and the epoxy resin-based anticorrosive material 6. Even if deformation or displacement occurs, it is possible to prevent the rubber sheet 3 provided between the epoxy resin-based anticorrosive material 6 and the epoxy resin-based anticorrosive material 6 from being cracked. That is, it is possible to provide a waterproof / corrosion-proof structure for a concrete structure that maintains high waterproof / corrosion resistance even if cracks occur in the underlying concrete 1.

  Moreover, since the primer 2 is interposed between the ground concrete 1 and the rubber sheet 3, the adhesion between the ground concrete 1 and the rubber sheet 3 is improved, and the rubber sheet 3 is more reliably adhered to the ground concrete 1. It is possible.

  Moreover, it is possible to suppress generation | occurrence | production of the back surface water which osmose | permeates from the foundation concrete 1 with the rubber sheet 3 provided with waterproofness. For this reason, it is possible to suppress the occurrence of swelling and peeling of the epoxy resin-based anticorrosive material 6 due to the back water, and to prevent damage.

  Further, since the rubber sheet 3 includes the adhesive layer 3 a, the rubber sheet 3 can be reliably attached to the ground concrete 1.

  Further, since the rubber sheet 3 includes the nonwoven fabric 3b or the fibrous sheet, the epoxy resin anticorrosive material 6 can be more reliably bonded to the rubber sheet 3.

  Moreover, by applying the base material adjusting material 4 and applying the epoxy resin-based anticorrosive material 6 on the plurality of rubber sheets 3 that are bonded with the end portions of the adjacent rubber sheets 3 overlapped to each other, for example, the base concrete 1 Even if deformation or displacement accompanied by cracks occurs, it is possible to easily realize a waterproof and anticorrosive structure in which cracks are unlikely to occur in the epoxy resin anticorrosive material 6.

Moreover, since the member provided as a buffer layer between the base concrete 1 and the epoxy resin-based anticorrosive material 6 is a rubber sheet 3 manufactured by managing the thickness, a buffer layer having a uniform thickness can be easily formed simply by pasting. Is possible. For this reason, it is possible to construct easily without managing the thickness of the buffer layer.
Moreover, since the level | step difference which arises when the rubber sheet 3 is piled up by the base-material adjustment material 4 apply | coated on the rubber sheet 3, a clearance gap does not arise easily between the rubber sheet 3 and the epoxy resin type | system | group anticorrosive material 6. FIG. For this reason, it is possible to form a waterproof and anticorrosive layer that is less likely to be damaged. That is, it is possible to provide a waterproof and anticorrosion method for a concrete structure that can easily realize a waterproof and anticorrosive structure for a concrete structure that maintains high waterproof and anticorrosive properties even if cracks occur in the underlying concrete 1. .

  In the above-described embodiment, the example in which the primer 2 is applied to the surface of the ground concrete 1 forming the floor of the underground pit has been described. However, for example, when the ground concrete 1 is in a wet state or between the adjacent pits forming a water tank. As shown in FIG. 5, it is desirable to provide a siliceous coated waterproofing material 10 between the foundation concrete 1 and the rubber sheet, when the concrete wall that partitions the wall is subjected to waterproofing and anticorrosion treatment. That is, in the primer application step S2 in FIG. 2, it is desirable to apply the siliceous application waterproofing material 10 to the surface of the foundation concrete 1 instead of the primer 2. In this case, the generation of back water penetrating from the ground concrete 1 can also be suppressed by the siliceous coated waterproofing material 10, and the surface of the ground concrete 1 can be improved hard and densely. For this reason, even when the ground concrete 1 is in a wet state, it is possible to suppress the occurrence of swelling and peeling of the epoxy resin-based anticorrosive material 6 due to the back surface water, and more reliably prevent damage.

  In the said embodiment, although the example using the sheet | seat made from a butyl rubber was demonstrated as an elastic sheet, it does not restrict to this. For example, the base concrete 1 and the epoxy resin-based anticorrosive material 6 due to cracking or swelling of the base concrete 1, such as a synthetic polymer sheet such as ethylene propylene rubber, an ethylene vinyl acetate sheet, a vinyl chloride resin-based sheet, or a modified asphalt sheet Any sheet may be used as long as it has elasticity enough to absorb the displacement generated between the two.

  The above embodiment is for facilitating the understanding of the present invention, and is not intended to limit the present invention. The present invention can be changed and improved without departing from the gist thereof, and it is needless to say that the present invention includes equivalents thereof.

DESCRIPTION OF SYMBOLS 1 Ground concrete 2 Primer 3 Rubber sheet 3a Adhesive layer 3b Non-woven fabric 4 Base material 5 Primer 6 Epoxy resin type anticorrosion material 7 Flexible substrate 7a Notch 8 Anticorrosion material coating film 9 Test piece 10 Silicic system type application waterproof material

Claims (6)

An elastic sheet is provided between the base concrete and the epoxy resin-based anticorrosive provided on the base concrete,
The waterproof and anticorrosive structure for a concrete structure, wherein the elastic sheet includes a non-woven fabric or a fibrous sheet on the epoxy resin anticorrosive material side. A waterproof and anticorrosive structure for a concrete structure according to claim 1,
A waterproof and anticorrosive structure for a concrete structure, wherein a primer is interposed between the base concrete and the elastic sheet. A waterproof and anticorrosive structure for a concrete structure according to claim 1,
A waterproof and anticorrosive structure for a concrete structure, wherein a silicate-based coated waterproofing material is interposed between the base concrete and the elastic sheet. A waterproof and anticorrosive structure for a concrete structure according to any one of claims 1 to 3,
A waterproof and anticorrosive structure for a concrete structure, wherein the elastic sheet is waterproof. A waterproof and anticorrosive structure for a concrete structure according to any one of claims 1 to 4,
The waterproof and anticorrosive structure for a concrete structure, wherein the elastic sheet includes an adhesive layer on the base concrete side. On the foundation concrete, a plurality of elastic sheets provided with a nonwoven fabric or a fibrous sheet on the side opposite to the foundation concrete, an elastic sheet attaching step for attaching the ends of the elastic sheets adjacent to each other, and
Applying a base material adjusting material on the pasted elastic sheet and leveling a level difference due to the elastic sheet overlapping,
An anticorrosive material application step of applying an epoxy resin anticorrosive material on the substrate preparation material;
A waterproof and anticorrosion method for concrete structures, characterized by comprising: