JP2023082898A - Waterproofing method and waterproofing structure to woody substrate - Google Patents

Abstract

To provide means for contributing to a formation of a waterproof layer more suitable to a woody substrate.SOLUTION: A waterproofing method comprises a process of applying a primer with cement to be applied on a surface of a woody substrate and forming an undercoat layer and a process of applying an urea-based resin on a surface of the undercoat layer and forming a waterproof layer. It is preferable that the primer with cement has a weight ratio of cement to the one-liquid urethane-based primer of 1/3 or more.SELECTED DRAWING: None

Description

TECHNICAL FIELD The present invention relates to a waterproofing method and a waterproofing structure for applying waterproofing to wood bases used in various buildings.

Techniques described in the following patent documents are disclosed as techniques for waterproofing the frame of a building.
In Patent Document 1, as a technique for waterproofing the floor, a blister prevention layer, a water-based epoxy resin primer layer, a water-based epoxy resin primer layer, and a waterproof An invention is disclosed for sequentially constructing layers and pavement layers.
In Patent Document 2, as a waterproofing method for underground structures, a primer containing a filler is applied to a waterproof base made of an inorganic material, and then a liquid resin material is applied to form a waterproof layer made of a thermosetting resin. An invention is disclosed that forms a

Japanese Patent No. 4446364 JP 2013-2249 A

When attempting to form a waterproof layer made of urea-based resin on a wooden base used in various buildings with reference to the above-described waterproofing technology, at least one of the following problems occurs. was occurring.
(1) Wood-based substrates tend to absorb moisture due to rain, etc., so when a normal urethane primer is used, the primer reacts with moisture, resulting in a sufficient amount of moisture between the wood-based substrate and the primer layer. Adhesive strength may not be obtained.
(2) Since the applied primer easily impregnates the wood base, a primer layer having a sufficient thickness may not be formed on the base surface.

Accordingly, one of the objects of the present invention is to provide a means for contributing to the formation of a more suitable waterproof layer on a wood base.

The first invention of the present application, which has been made to solve the above problems, is a method for waterproofing a wooden base, comprising the steps of applying a cement-containing primer to the surface of the wooden base to form an undercoat layer; and applying a urea-based resin to the surface of the layer to form a waterproof layer.
A second invention of the present application is characterized in that, in the first invention, the weight ratio of the cement to the primer is 1/3 or more.
A third invention of the present application is characterized in that, in the first invention or the second invention, the cement-containing primer is obtained by on-site mixing of a one-component urethane primer and cement.
A fourth invention of the present application is a waterproof structure for a wooden base, comprising an undercoat layer comprising a cement-containing primer applied to the surface of the wood base, and a urea resin applied to the surface of the undercoat layer. and a waterproof layer.
A fifth invention of the present application is characterized in that, in the fourth invention, the primer is a one-component urethane primer.
A sixth invention of the present application is characterized in that, in the cement-containing primer of the fourth invention or the fifth invention, the weight ratio of the cement to the primer is 1/3 or more.

According to the present invention, at least one of the effects described below can be obtained.
(1) Since the cement mixed in the primer absorbs moisture generated from the wood-based base, the reaction between the primer and water can be suppressed, and the primer is not repelled on the surface of the wood-based base. A decrease in adhesive strength between the wood base and the undercoat layer can be suppressed.
(2) Since the cement retains the primer, a sufficiently thick undercoat layer can be formed on the surface of the wood base.
(3) Since the undercoat layer is colored by the addition of cement, it becomes easy to grasp the areas where the primer has been applied and the amount of application, thereby improving workability.
(4) Since the viscosity of the primer increases, it becomes easy to adjust the unevenness of the surface of the undercoat layer.
(5) The addition of cement increases the surface area of the undercoat layer, thereby shortening the drying time.
(6) Since the cement mixed with the primer penetrates into the waterproof material, the adhesive strength between the undercoat layer and the waterproof layer is increased.
(7) Since the cement mixed with the primer penetrates into the joints of the wood base, pinholes can be suppressed.
(8) When a one-liquid urethane primer is used, it is easier to handle on site than when a two-liquid epoxy primer is used, because it requires less work such as stirring.

Details of the configuration and experimental examples according to the present invention will be described below.

<1> Overall Configuration A waterproof structure according to the present invention includes at least an undercoat layer provided on the surface of a wood base and a waterproof layer provided on the surface of the undercoat layer.
The wood base is a base material to be waterproofed.
The wooden base includes wooden plywood used as a base material for roofs, rooftops, floors, walls, and the like, and the type of wood is not particularly limited.
Further, in the present invention, a urea-based resin is used for the waterproof material used to form the waterproof layer.
A top coat layer may be provided on the surface of the waterproof layer, if necessary.
Details of the undercoat layer will be described below.

<2> Undercoat Layer The undercoat layer is a layer for improving workability and fixability of the waterproof layer forming work by applying an undercoat to the wood base before forming the waterproof layer.
In this embodiment, it is preferable to use a one-component urethane primer as the primer for the undercoat layer.
The reason for this is that the one-component urethane-based primer is superior to the two-component epoxy-based primer in handleability during on-site stirring work, cement mixing work, and the like.

<2.1> Mixing Cement Cement is added to the primer used in the present invention.
In the present invention, it is preferable that the weight ratio of the cement to the primer is at least 1/3 or more.

<2.2> Timing of Mixing Cement The timing of adding cement to the primer may be either on-site mixing (external addition) or pre-addition (internal addition). The advantages of adopting each addition method are as follows.

<2.2.1> On-site mixing (external addition)
When the on-site mixing method is used, the primer can be applied immediately after mixing, so the risk of the cement separating and precipitating in the primer container can be reduced.
It is also beneficial in that it is possible to flexibly adjust the amount of cement mixed, such as increasing the amount of mixed cement when the amount of moisture in the wooden base is higher than initially expected due to sudden rainfall or the like.

<2.2.2> Pre-mixing (internal addition)
The method of pre-mixing the cement with the primer facilitates quality control such as the amount of cement to be mixed, and is advantageous in that no on-site mixing work is required.

<2.3> Addition of dispersant/anti-settling agent In addition, if necessary, a dispersant or anti-settling agent may be added to the primer to further suppress the separation and settling of cement in the primer. good.

<3> Experimental Example Next, the results of various performance tests will be described.

<3.1> Performance test 1 (water stopping performance by cement)
While changing various conditions of the primer, we conducted a comparative experiment on the waterproof performance against the substrate. The test conditions and test method are as follows.

<3.1.1> Test conditions [primer type]
(1) None (2) One-part urethane primer (trade name “AQ Primer U”: manufactured by Japan Aqua Co., Ltd.)
(3) Two-liquid epoxy primer (trade name “AQ Primer EP”: manufactured by Japan Aqua Co., Ltd.)

[Cement mixing ratio] (Ordinary Portland cement: commercially available)
(1) None (2) 5:1 (weight ratio of cement to primer = 1/5)
(3) 3:1 (weight ratio of cement to primer = 1/3)
(4) 1:1 (weight ratio of cement to primer = 1/1)

[Amount of primer applied]
(1) None (2) 0.1 [kg/m2]
(3) 0.2 [kg/m2]
(4) 0.3 [kg/m2]

<3.1.2> Test method Procedure 1: Primer under various conditions is applied to a specimen (200 mm square silicate board) and dried overnight.
Step 2: Enclose four sides of the specimen with tape to form a recess of 150 mm square.
Step 3: Pour water into the recess to create a puddle. (Pour 45 g. (equivalent to 2 kg/m2))
Step 4: Remove excess water after 1 hour. (In addition, if it is completely penetrated within 1 hour, pour 22.5 g more and leave it for 1 hour)
Step 5: Calculate the weight of water that permeates the frame.

<3.1.3> Test Results Table 1 shows the test results.
[Table 1]

From Table 1 above, the following points have become clear.
(1) As the amount of cement mixed with the primer increases within a certain range, the waterproof performance is improved.
(2) Epoxy-based primers must have a certain level of waterproofing effect without mixing with cement.
(3) Epoxy-based primers should have higher water-stop performance than urethane-based primers when using silica gel as a base.

<3.2> Performance test 2 (Evaluation of test specimen on lauan plywood substrate)
Next, while changing the conditions of the primer, apply the primer, apply the waterproofing agent, and top [Ease of application], "presence or absence of pinholes", "presence or absence of blistering", and "adhesive strength" were evaluated for the test pieces that were subjected to coating and sunlight irradiation in this order.
The adhesive force was evaluated by making a cut in the test piece with a cutter and then forcibly peeling it off manually, or by the ratio of how much the base adhered to the peeled waterproof layer.

[Raw material of primer]
(1) One-part urethane primer (trade name “AQU”: manufactured by Japan Aqua Co., Ltd.)
(2) One-component urethane primer (trade name “Sun PC-F”: manufactured by AGC Polymer Kenzai Co., Ltd.)
(3) To the above (2), 15% pigment and 1% amine curing accelerator are added.
(4) To the above (2), 15% pigment and 2% amine curing accelerator are added.
(5) Cement (Commercial ordinary Portland cement) (The weight ratio of cement to primer was 1/3.)
(6) Two-liquid epoxy primer (trade name “AQEP”: manufactured by Japan Aqua Co., Ltd.)
In addition, the case where the surface of the undercoat layer was roughened with a commercially available disc grinder (#120 whetstone) was also included in the experiment.

[Waterproof material]
Urea-based resin waterproof material (trade name “AQ3000A/B”: manufactured by Japan Aqua Co., Ltd.)

[Top coat]
Top coat for waterproofing method (trade name “AQ Top F”: manufactured by Dick Proofing Co., Ltd.)

<3.2.1> Test Results Table 2 shows the test results.
[Table 2]

From Table 2 above, the following points have become clear.
(1) Without a primer (specimen 1), the adhesive strength was only moderate.
(2) By adding cement to the primer, effects of shortening the drying time and improving the coatability and adhesion are observed.
(3) When the surface of the undercoat layer was roughened (specimen 9), the amount of pinholes and adhesive strength were slightly improved, but the effect was limited compared to the case where cement was added. be.
(4) In consideration of price and practicality, specimen 4 (a case in which cement is mixed with urethane-based primer) is optimal.

<3.3> Performance test 3 (Evaluation of test specimen on base made of softwood plywood)
While changing the primer, apply a primer, apply a waterproofing agent, apply a top coat, and protect the wood base (coniferous plywood) adjusted to a predetermined moisture content (6% surface moisture content, 9% spray). [Ease of coating], "presence or absence of pinholes", "presence or absence of blistering", and "adhesive strength" were evaluated for the specimens that were irradiated in order.
The adhesive force was evaluated by making a cut in the test piece with a cutter and then forcibly peeling it off manually, or by the ratio of how much the base adhered to the peeled waterproof layer.

[Raw material of primer]
(1) One-part urethane primer (trade name “AQU”: manufactured by Japan Aqua Co., Ltd.)
(2) One-component urethane primer (trade name “Sun PC-F”: manufactured by AGC Polymer Kenzai Co., Ltd.)
(3) To the above (2), 15% pigment and 1% amine curing accelerator are added.
(4) To the above (2), 15% pigment and 2% amine curing accelerator are added.
(5) Cement (Commercial ordinary Portland cement) (The weight ratio of cement to primer was 1/3.)
(6) Two-liquid epoxy primer (trade name “AQEP”: manufactured by Japan Aqua Co., Ltd.)
In addition, the case where the surface of the undercoat layer was roughened with a commercially available disc grinder (#120 whetstone) was also included in the experiment.

[Waterproof material]
Urea-based resin waterproof material (trade name “AQ3000A/B”: manufactured by Japan Aqua Co., Ltd.)

[Top coat]
Top coat for waterproofing method (trade name “AQ Top F”: manufactured by Dick Proofing Co., Ltd.)

<3.3.1> Test Results Table 3 shows the test results.
[Table 3]

From Table 3 above, the following points have become clear.
(1) The overall tendency is common to the performance test 2 (lauan plywood).
(2) The adhesive strength is stronger than that of the performance test 2 (lauan plywood).

Claims (6)

A waterproofing method for a wooden base,
A step of applying a cement-containing primer to the surface of the wood base to form an undercoat layer;
a step of applying a urea-based resin to the surface of the undercoat layer to form a waterproof layer;
characterized by having
A waterproofing method for wooden substrates. characterized in that the weight ratio of the cement to the primer is 1/3 or more,
The method for waterproofing a wooden substrate according to claim 1. The cement-containing primer is obtained by on-site mixing of a one-component urethane primer and cement,
3. The method for waterproofing a wooden substrate according to claim 1 or 2. A waterproof structure for a wooden base,
an undercoat layer consisting of a cement-containing primer applied to the surface of the wood base;
a waterproof layer made of a urea-based resin applied to the surface of the undercoat layer;
characterized by having
Waterproof structure for wooden substrates. The primer is a one-liquid urethane primer,
A waterproof structure for a wooden base according to claim 4. In the cement-containing primer,
characterized in that the weight ratio of the cement to the primer is 1/3 or more,
A waterproof structure for a wooden base according to claim 4 or 5.