JPH0597492A - Composition for cement-based water permeable paving material - Google Patents

Abstract

PURPOSE:To provide a paving material having excellent water permeability and bending strength after paving. CONSTITUTION:This compsn. consists of cement, aggregate and re-emulsible powder of a synthetic resin emulsion. The aggregate may be composed of coarse aggregate and <=0.5 time as much fine aggregate as the coarse aggregate. The re-emulsible powder may be used by 1.0-10 pts.wt. per 100 pts.wt. cement.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a cement-based water-permeable pavement composition, and more particularly to a pavement composition having significantly improved strength without lowering water permeability.

[0002]

Cement-based and asphalt-based pavement materials are widely used as road and other pavement materials. These paving materials have a property of poor water permeability. In recent years, as the tendency of urbanization has advanced, the paved area has increased, which has become a major environmental problem. One of them is the impermeability of the ground surface. Rainwater does not permeate into the soil from the paved ground surface, which reduces groundwater, causing ground subsidence, and worsening the growth of roadside trees. In addition, flooding of rivers due to heavy rainfall is considered to be one of the reasons that a large amount of rainwater is discharged into the river at one time due to the impervious water on the paved ground surface. Therefore, it has been attempted to use water-permeable pavement materials, but water-permeable asphalt-based pavement materials tend to become clogged because asphalt softens or melts due to temperature, and thus water permeability over time. There was a problem of decreasing. As the cement-based water-permeable pavement material, JP-A-59-150806, "Water-permeable cement concrete pavement", JP-A-59-206502, "Method for producing water-permeable cement concrete construction", JP-A-60-
A number of proposals have been made, such as No. 215565 “Method for producing cement concrete structure having high water permeability” and Japanese Patent Laid-Open No. 204504/1990 “Cement-based water permeable pavement material”. However, these proposals are not intended to control the particle size of the aggregate, and they are not required as pavement materials to satisfy the performance.

[0003]

Cement-based water-permeable pavement materials are pavement-constructed by kneading cement, aggregate, water, and additives, and the characteristic is that the cement is hardened with a large number of voids inside. Water permeability is obtained by forming continuous voids. Therefore, a large amount of continuous voids significantly reduces the strength of the water-permeable pavement material, and there is a serious problem that sufficient strength cannot be obtained.

The strength of the water-permeable pavement material is also a problem in the above-mentioned various cement-based water-permeable pavement materials, and various additive materials have been proposed as a method for improving the strength of the water-permeable pavement material. For example, synthetic resin aqueous emulsions are widely used as an additive for improving the strength of cement compositions such as cement mortar because of their excellent effects. Aqueous emulsions are also used in various cement-based water-permeable pavement materials.

However, since the synthetic resin aqueous emulsion is a liquid and has a low viscosity, and since the particle size of the synthetic resin particles in the emulsion is small, the synthetic resin aqueous emulsion moves through the continuous voids of the uncured cement-based water-permeable pavement material and the coating material. Since it settles down in the layer and is present in a very small amount on the surface and in a large amount on the lower side, it is unevenly distributed, so the strength of the surface, in particular the bending strength, decreases at the surface where only a small amount of emulsion exists. Therefore, it was difficult to sufficiently increase the strength. In particular, since the synthetic resin aqueous emulsion unevenly distributed in the lower layer fills the voids of the cement-based water-permeable pavement material to form an impermeable layer, the water permeability is significantly reduced, which is also a serious problem. Since the amount of synthetic resin emulsion that can be used within a range that does not impair water permeability is extremely small, it was insufficient to improve the strength of the cement-based water-permeable pavement material.

Further, by using an aqueous polymer dispersion and a thickener together as an additive, as in JP-A-2-204504 "Cement-based water-permeable pavement material", migration of liquid components is prevented and a water-impermeable layer is formed. Inventions for preventing the above have also been proposed. However, it is not only difficult to mix a small amount of thickener uniformly, but there is a drawback that the hardening of cement is inhibited by the thickener, and if the thickener increases the viscosity, the workability is significantly reduced. There was such a problem. Therefore, there has been a strong demand for a cement-based composition for water-permeable pavement material which has good workability and has sufficient water permeability and strength.

[0007]

Means for Solving the Problems The inventors of the present invention have conducted extensive studies as to sufficiently enhance the strength of a cement-based water-permeable pavement material without inhibiting the water permeability of the cement-based water-permeable pavement material. As a result, a re-emulsifiable synthetic resin emulsion powder is obtained. The present invention was completed by discovering that the cement-based composition for water-permeable pavement material using No. 1 has good workability, and has sufficient water permeability and sufficient strength.

The present invention provides: (1) a composition for a cent type water-permeable pavement material, which comprises cement, aggregate, and re-emulsifiable synthetic resin emulsion powder as main components. (2) Aggregate is 85 parts by weight. More than 85% by weight is 5% with respect to 100 parts by weight of coarse aggregate where 5% or more stays in the 5 mm sieve.
Item 2. The cement-based water-permeable pavement composition according to Item 1, comprising 0 to 50 parts by weight of fine aggregate that passes through a mm-th sieve. (3) The ratio of the cement, the aggregate and the re-emulsifiable synthetic resin emulsion used is 100 parts by weight of the cement 200-1,000 parts by weight of the re-emulsifiable synthetic resin emulsion powder 1.0-10 parts by weight. Item 3. The cement-based water-permeable pavement composition according to Item 1 or 2, which is used by kneading with water having a water / cement ratio of 25 to 50%. (4) Water reducing agent and / or 100 parts by weight of cement
Alternatively, the composition for cement-type water-permeable pavement material according to any one of Items 1 to 3, wherein 1 to 10 parts by weight of a fluidizing agent is added. (5) The cement-based water permeable according to any one of item 1 to 4, wherein the re-emulsifiable synthetic resin emulsion powder is a powder obtained by spray-drying a synthetic resin emulsion in the presence of an anti-caking agent. A composition for paving materials. (6) The cement-based composition for water-permeable pavement material according to any one of items 1 to 5, wherein the re-emulsifiable synthetic resin emulsion powder is ground with cement. Regarding

The cement used in the present invention may be ordinary Portland cement, and other hydraulic cements such as alumina cement, hydraulic lime, natural cement, blast furnace cement, silica cement, fly ash cement, etc. may be used. Or they can be used together.

As the aggregate used in the present invention, coarse aggregate is used, but fine aggregate can also be used together. The coarse aggregate is an aggregate having a size of 85% by weight or more retained in a 5 mm sieve. On the other hand, the fine aggregate is an aggregate having a size that allows a 5 mm sieve to pass by 85% by weight or more. Fine aggregate 0-5 in 100 parts by weight of coarse aggregate
A proportion of 0 parts by weight of aggregate composition is particularly preferred. Since small aggregates of less than 1 mm may impair the water permeability, it is preferable not to use them as much as possible.

The amount of aggregate used is preferably in the range of 200 to 1,000 parts by weight with respect to 100 parts by weight of cement. If the aggregate content is less than 200 parts by weight, sufficient voids cannot be obtained, and water permeability cannot be obtained. Also, aggregate 1,0
If it is more than 00 parts by weight, the proportion of cement is too small and the strength deteriorates. As coarse aggregate, river gravel, mountain gravel, sea gravel, crushed stone, artificial coarse aggregate, etc. are used, and as fine aggregate, river sand, mountain sand, sea sand, silica sand, artificial fine aggregate are used. Be done. When using mountain gravel, sea gravel, mountain sand, and sea sand, it is preferable to use washed water.

The re-emulsifiable synthetic resin emulsion powder used in the present invention is a powder obtained by drying a synthetic resin emulsion obtained by emulsion polymerization in a particle state, and is re-emulsified especially when added to water and stirred. It is a powder. Re-emulsification means that the re-emulsifiable synthetic resin emulsion powder dispersed in water does not simply disperse at the particle size in the powder state, but it has a particle size almost the same as that of the finer original synthetic resin emulsion. The redispersed liquid needs to have almost the same properties as the original synthetic resin emulsion. Usually, it is obtained by spray drying a synthetic resin emulsion of vinyl resin. Examples of the vinyl-based resin include polymers and copolymers of vinyl acetate, vinyl versatate, acrylic acid ester, methacrylic acid ester, styrene, vinyl chloride and the like. In particular, ethylene-vinyl acetate copolymer and vinyl acetate-vinyl versatate copolymer are preferable because they have good miscibility with cement. Further, when the alcal resistance is required, a copolymer of acrylic acid ester and methacrylic acid ester gives good results. Depending on the type of synthetic resin emulsion, particles of the re-emulsifiable synthetic resin emulsion powder may combine during spray drying or during storage after spray drying, causing easy blocking. Can not be obtained. The synthetic resin emulsion which is easily blocked is preferably used as a re-emulsifiable synthetic resin emulsion powder which is spray-dried in the presence of an anti-caking agent.

As the anti-caking agent, fine particle powder of aluminum silicate, silica, calcium carbonate or the like is used. The amount of the re-emulsifiable synthetic resin emulsion powder used is in the range of 1 to 10% by weight with respect to the cement, and the strength of the water permeable pavement material can be significantly improved without impairing the water permeability of the water permeable pavement material. it can.

As the water reducing agent and / or fluidizing agent used in the present invention, the water reducing agent and / or fluidizing agent commonly used for cement mortar and concrete can be used. Specifically, β-naphthalene sulfonic acid condensate salt, creosote oil sulfonic acid condensate salt, melamine resin sulfonic acid condensate salt, gluconate, lignin sulfonate, polyoxyethylene nonylphenyl ether, polycarboxylic acid Examples include salt. The amount of water reducing agent and / or superplasticizer used is 1 to 10 relative to the cement.
It is in the range of% by weight. The composition for cement-based water-permeable pavement material obtained by grinding the re-emulsifiable synthetic resin emulsion powder with cement is a composition for cement-based water-permeable pavement material, in which the surface of the re-emulsifiable synthetic resin emulsion powder is uniformly coated with cement. It is particularly preferable because the reinforcing effect is greater.

[0015]

The feature of the composition for cement-based water-permeable pavement material of the present invention is that it uses re-emulsifiable synthetic resin emulsion powder as an additive. By using synthetic resin as powder, it is possible to disperse it evenly in the cement beforehand, workability is good, and there is no uneven distribution in one part, so a water impermeable layer is formed. Without increasing the water permeability of the solidified water-permeable pavement material, the strength is remarkably improved.

The present inventor has found that when a re-emulsifiable synthetic resin emulsion powder is used, it is uniformly dispersed, and uneven distribution does not occur. When water is added to the cement-based water-permeable pavement composition of the present invention and kneaded, It is considered that the curing process by the hydration reaction and the re-emulsification process of the added re-emulsifiable synthetic resin emulsion powder proceed almost at the same time.

The re-emulsifiable synthetic resin emulsion powder is re-emulsified in water, but it is not something which is immediately re-emulsified by the added water, and some time is required. During that time, the particle size in the powder state is maintained and it is difficult to move. Then, the re-emulsifiable synthetic resin emulsion powder is re-emulsified after a certain period of time, but during this time, the hardening of the cement progresses and the fluidity is lost and it becomes difficult to move.

Therefore, the composition for cement-based water-permeable pavement material of the present invention has the same good workability as a blank containing no resin. In addition, the re-emulsifiable synthetic resin emulsion powder does not form an impermeable layer because it does not become unevenly distributed by moving through the uncured water-permeable pavement material unlike synthetic resin emulsion, so that water permeability of the water-permeable pavement material is not formed. Does not hinder. Moreover, by re-emulsifying in the course of hardening the cement, the effect as an additive is sufficiently exerted, and the strength of the cement-based water-permeable pavement material is significantly improved.

[0019]

EXAMPLES The present invention will be described in detail below with reference to examples.

Example 1 Cement 100 parts by weight No. 7 crushed stone 430 parts by weight River sand 75 parts by weight Vinyl acetate / crotonic acid-based re-emulsifiable synthetic resin emulsion powder 5 parts by weight Water was added to this cement-based water-permeable pavement composition 35 parts by weight Part 3 parts by weight of the water reducing agent were uniformly mixed with a powder mixer to obtain a cement-based water-permeable pavement material.

Example 2 Cement 100 parts by weight No. 7 crushed stone 430 parts by weight River sand 75 parts by weight Vinyl acetate / ethylene-based re-emulsifiable synthetic resin emulsion powder 5 parts by weight spray-dried in the presence of an anti-caking agent A cement-based water-permeable pavement material was obtained by uniformly mixing 35 parts by weight of water and 3 parts by weight of a water-reducing agent with a powder-type water-permeable pavement composition. Of the composition, cement and re-emulsifiable synthetic resin emulsion powder were ground with a Nauta mixer for 30 minutes, and then an aggregate was added.

Example 3 Cement 100 parts by weight Crushed stone No. 7 430 parts by weight River sand 75 parts by weight Vinyl acetate / Veova (Ciel Chemical Co., Ltd.)-Based re-emulsifiable synthetic resin spray dried in the presence of an anti-caking agent Emulsion powder 5 parts by weight To this cement-based water-permeable pavement composition, 35 parts by weight of water and 3 parts by weight of a water reducing agent were uniformly mixed with a powder mixer to obtain a cement-based water-permeable pavement material. Of the composition, cement and re-emulsifiable synthetic resin emulsion powder were ground with a Nauta mixer for 30 minutes, and then an aggregate was added.

Comparative Example 1 (blank) Cement 100 parts by weight No. 7 crushed stone 430 parts by weight River sand 75 parts by weight This pavement composition was uniformly mixed with 35 parts by weight of water and 3 parts by weight of a water reducing agent by a powder mixer. A cement-based pavement material was obtained.

Comparative Example 2 100 parts by weight of cement 100 parts by weight of crushed stone 7 430 parts by weight 75 parts by weight of river sand 10 parts by weight of vinyl acetate / ethylene-based synthetic resin emulsion (solid content of 50% by weight) 30 parts by weight of water in this pavement composition Cement-based pavement material was obtained by uniformly mixing 3 parts by weight of the agent with a powder mixer.

Comparative Example 3 Cement 100 parts by weight No. 7 crushed stone 430 parts by weight River sand 75 parts by weight Vinyl acetate / Veova (Ciel Chemical Co., Ltd.) synthetic resin emulsion (solid content 50% by weight) 10 parts by weight For this paving material 30 parts by weight of water and 3 parts by weight of a water reducing agent were uniformly mixed with the composition using a powder mixer to obtain a cement-based pavement material.

Comparative Example 4 Cement 100 parts by weight No. 7 crushed stone 430 parts by weight River sand 75 parts by weight Vinyl acetate / ethylene-based synthetic resin emulsion (solid content 50% by weight) 1 part by weight Water for this paving composition 34 parts by weight Water reduction Cement-based pavement material was obtained by uniformly mixing 3 parts by weight of the agent with a powder mixer.

Comparative Example 5 A cement-based water-permeable pavement material was obtained in the same manner as in Example 1 except that the amount of emulsion powder was 0.5 part by weight.

Comparative Example 6 Example 1 except that the amount of emulsion powder was 20 parts by weight.
A cement-based water-permeable pavement material was obtained in the same manner as in.

Reference Example This example is an example of the present invention, but the performance when the amount of fine aggregate is 74 parts by weight relative to 100 parts by weight of coarse aggregate, that is, when the amount of fine aggregate is large Is an example showing. A cement paving material was obtained in the same manner as in Example 1 except that 290 parts by weight of No. 7 crushed stone and 215 parts by weight of river sand were used.

Test Example (1) Preparation of Specimen Pavement material using the cement-based water-permeable pavement material composition of Examples 1 and 2 and pavement material JIS A of the cement-based composition of Comparative Examples 1, 2, and 3 Mixing according to 1138 (How to make concrete in the test room), test specimen size 10 × 1
0 × 40 cm (for bending strength test) and φ10 × 10 cm
After molding (for water permeability test), the specimen was prepared by carrying out wet air curing for 28 days.

(2) Water permeability test “Asphalt Pavement Handbook” (edited by Japan Road Association)
The water permeability was measured according to the "Water permeability asphalt mixture water permeability test method" established in. The test result is the first
It was as shown in the table.

(3) Bending strength test In accordance with JIS A 1106 (bending strength test method for concrete), a crosshead speed of 0.1 mm / min was used with an Instrontron universal testing machine, and a method of loading at three equal points was used. The bending strength was measured. The test results are shown in Table 1.

[0033]

[Table 1]

As is clear from the test results, Comparative Examples 2 and 3 using the emulsion have very poor water permeability. If the amount of emulsion used is reduced, the bending strength is greatly reduced. Further, even when the emulsion powder is used, if the amount is too small or too large, defects in water permeability and bending strength occur. If too much fine aggregate is used, the water permeability will deteriorate.

[0035]

EFFECTS OF THE INVENTION The cement-based water-permeable pavement material composition of the present invention has no uneven distribution of emulsion in the pavement material formed by construction, and is extremely excellent in water permeability and bending strength.

─────────────────────────────────────────────────── ─── Continuation of front page (51) Int.Cl. ⁵ Identification code Office reference number FI technical display area C04B 24:26) C2102-4G

Claims (6)

[Claims] 1. A composition for a cent type water-permeable pavement material, which comprises cement, an aggregate and a re-emulsifiable synthetic resin emulsion powder as main components. 2. From 0 to 50 parts by weight of fine aggregate, 85% by weight or more of which passes through the sieve of 5 mm, relative to 100 parts by weight of coarse aggregate of which 85% by weight or more stays in the sieve of 5 mm. The composition for a cement-based water-permeable pavement material according to claim 1. 3. The use ratio of cement, aggregate and re-emulsifiable synthetic resin emulsion is 100 parts by weight of cement, 200 to 1,000 parts by weight of aggregate, 1.0 to 10 parts by weight of re-emulsifiable synthetic resin emulsion powder, The cement-based water-permeable pavement composition according to claim 1 or 2, which is kneaded with water having a water / cement ratio of 25 to 50% when used. 4. The composition for cement-based water-permeable pavement material according to claim 1, wherein 1 to 10 parts by weight of a water reducing agent and / or a fluidizing agent is added to 100 parts by weight of cement. object. 5. The redispersible synthetic resin emulsion powder according to claim 1, wherein the synthetic resin emulsion powder is a powder obtained by spray-drying the synthetic resin emulsion in the presence of an anti-caking agent. Cement-based composition for water-permeable pavement material. 6. The cement-based water-permeable pavement composition according to claim 1, wherein the re-emulsifiable synthetic resin emulsion powder is ground with cement.