JP2012184598A - Paving concrete - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide paving concrete which may highly exhibit long-term strength as well as initial strength and has a long life, and by which traffic may be restored extremely early after the start of paving work.SOLUTION: Paving concrete is obtained by curing a concrete composition at least comprising a pozzolanic fine powder with a BET specific surface area of 15 to 25 m/g, a blast furnace slag powder with a Blaine specific surface area of 5000 to 12000 cm/g, anhydrous gypsum with a Blaine specific surface area of 3000 to 12000 cm/g, and a binder including cement, and the paving concrete has bending strength of 3.5 N/mmor more at an age of 1 day.

Description

  The present invention relates to concrete for paving.

  As paving materials for highways, main roads, and residential roads, paving concrete, paving asphalt, and the like are known. Pavement asphalt is relatively easy to pave and can shorten the period from the start of pavement work to the opening of traffic, but it is less durable than concrete for pavement, so the so-called `` wad digging '' on the road surface. Etc. ”is likely to occur.

  On the other hand, paving concrete is used for heavy loads such as airports, harbors, and factory sites, as well as for light loads such as garages and passages, and for bridges, etc. It is used as thickening concrete for the purpose of reinforcing concrete floor slabs, and is used in a very wide range.

  Since concrete for paving is more durable than paving asphalt, rubbing is less likely to occur on the road surface.When paving a road using the concrete, the color of the road surface becomes brighter and the driver who drives at night It has the advantage that it makes it difficult to feel fatigue, but it fatigues due to stress generated by temperature differences in the concrete, stress generated by wheel load of passing vehicles, etc., and cracks etc. will eventually occur It has been known.

  When cracks, etc. occur in paving concrete, it is necessary to construct new paving concrete. However, it is difficult to place concrete and perform curing for paving work using concrete. There are problems such as that the period from the start of paving work to the opening of traffic is prolonged, and it is difficult to dispose of the concrete removed by cracks and the like. Therefore, in order to reduce the frequency of pavement work using pavement concrete for road restoration or the like, pavement concrete having an extremely long life is desired.

  From such a viewpoint, conventionally, concrete for paving has been proposed in which a mixture containing cement, pozzolanic fine powder, fine aggregate having a predetermined particle size, a water reducing agent and water is cured (Patent Document 1). reference).

JP 2001-207402 A

  However, the concrete for paving described in Patent Document 1 has excellent long-term strength after concrete placement (for example, strength after 28 days of age (bending strength, compressive strength)) and has a long life. Although it is inferior in the expression of strength in the very early stage after concrete placement (for example, strength of about 1 day of age (bending strength, compressive strength)), it is an early stage from the start of paving work in concrete for paving. The problem of opening up traffic has not been solved.

  In view of the above problems, the present invention is excellent in long-term strength development, initial strength development, long life, and can open traffic very early from the start of paving work. The purpose is to provide concrete.

In order to solve the above problems, BET specific surface area of pozzolanic substance fine powder 5~25m ² / g, the Blaine specific surface area of blast furnace slag powder 5000~12000cm ² / g, the Blaine specific surface area of 3000~12000cm ² / g Provided is a concrete for paving, which is obtained by curing a concrete composition containing at least a binder containing anhydrous gypsum and cement, and has a bending strength of 3.5 N / mm ² or more at a material age of 1 day. (Claim 1).

Furthermore, the concrete composition provides the pavement concrete containing the binder and water so that the water bonding ratio is 12 to 35% by mass (Claim 2).

The design standard strength of paving concrete is stipulated as 4.5 N / mm ² in terms of bending strength, and the bending strength at which traffic can be opened after placing paving concrete is bending strength that is 70% or more of the blend strength. According to the above invention (Claim 1), the material is defined as (3. 47 N / mm ² or more) (pavement standard specifications established in 2007, edited by the Japan Society of Civil Engineers, Pavement Engineering Committee, March 2007). Since it has a strength expression that is higher than the bending strength at which traffic can be opened at the age of one day, it can be excellent in initial strength expression. Therefore, by using the concrete for paving according to the above invention (invention 1), it becomes possible to open the traffic very early from the start of the paving work.

  In the said invention (invention 1), it is preferable that the said concrete composition contains the said binder and water so that a water binder ratio may be 12-35 mass% (invention 2). By setting the water binder ratio low as in this invention (invention 2), it is possible to obtain a concrete for paving that exhibits better long-term strength, and a concrete for paving (a road paved with the concrete). Etc.) can be extended.

  According to the present invention, there is provided a concrete for paving that is excellent in long-term strength development, is excellent in initial strength development, has a long life, and can open traffic very early from the start of paving work. be able to.

As described above, the concrete for paving of the present invention is obtained by curing a concrete composition containing at least a binder containing a specific admixture and cement.
The present invention is described in detail below.

With respect to the binder, the binder is (1) a pozzolanic fine powder having a BET specific surface area of 15 to 25 m ² / g, (2) a blast furnace slag powder having a brain specific surface area of 5000 to 12000 cm ² / g, and (3) It contains anhydrous gypsum (hereinafter referred to as “Admixture (A)”) having a specific surface area of 3000 to 12000 cm ² / g, and (4) cement.

  The composition of the binder is preferably 10 to 50% by mass of the admixture (A) and 50 to 90% by mass of the cement, and more preferably of the admixture (A). The content is 20 to 40% by mass and the cement content is 60 to 80% by mass. If the content of the admixture (A) is less than 10% by mass and the content of cement exceeds 90% by mass, it may be difficult to extend the life of the concrete for paving. Moreover, the workability of the paving concrete also decreases, and when the blending amount of the water reducing agent is increased to improve the workability, the initial strength of the paving concrete may be lowered. If the content of the admixture (A) exceeds 50% by mass and the content of the cement is less than 50% by mass, the initial strength of the paving concrete may be deteriorated.

The composition of the admixture (A) is preferably such that the content of pozzolanic fine powder is 5 to 55% by mass, the content of blast furnace slag powder is 20 to 80% by mass, and the content of anhydrous gypsum is More preferably, the content of pozzolanic fine powder is 10 to 40% by mass, the content of blast furnace slab powder is 30 to 60% by mass, and the content of anhydrous gypsum is 20 to 35%. % By mass. If the composition of the admixture (A) is out of this range, the strength development of the concrete for paving may be lowered or it may be difficult to extend the life.

Each component contained in the binder will be described.
(1) Pozzolanic fine powder Pozzolanic fine powder alone is not hydraulic, but if calcium hydroxide is present, it is a substance that reacts in water to form an insoluble gel and hardens.
Examples of the pozzolanic fine powder used in the present invention include silica fume, silica dust, fly ash, slag, volcanic ash, silica sol, and precipitated silica. Among these, silica fume and silica dust are preferable because their average particle diameter is 1 μm or less and they do not need to be pulverized. Here, a ball mill or a rod mill can be used as the pulverizing means.

Moreover, the BET specific surface area of this pozzolanic fine powder is 15-25 m < ² > / g normally, Preferably it is 17-23 m < ² > / g, More preferably, it is 18-22 m < ² > / g. If the specific surface area is out of the range of 15 to 25 m ² / g, the strength development of the concrete for pavement may be lowered or it may be difficult to extend the life.

(2) Blast Furnace Slag Powder As the blast furnace slag powder used in the present invention, in addition to the blast furnace slag fine powder for concrete specified in “JIS A 6206”, a powder obtained by further pulverizing the fine powder is used. Fineness of blast furnace slag powder is usually Blaine specific surface area of 5000～12000Cm ² / g, preferably from 6000～10000Cm ² / g, specific surface area is 5000cm is less than ² / g latent hydraulic low, If it exceeds 12000 cm ² / g, the labor of pulverization increases and the cost increases. Here, a ball mill or a rod mill can be used as the pulverizing means.

(3) Anhydrous gypsum The anhydrous gypsum used in the present invention includes natural anhydrous gypsum and regenerated anhydrous gypsum obtained by heat treatment of gypsum waste such as gypsum board.
Further, the powder of the anhydrous gypsum is usually Blaine specific surface area of 3000~12000m ² / g, preferably from 4000~10000m ² / g. If the specific surface area is less than 3000 m ² / g, the strength development of the concrete for pavement may be lowered, and it may be difficult to extend the life. If it exceeds 12000 m ² / g, the labor of grinding increases. Cost.

(4) Cement Examples of the cement used in the present invention include Portland cement, ordinary eco cement, fly ash cement and silica cement. Examples of the Portland cement include at least one selected from ordinary Portland cement, early-strength Portland cement, ultra-early strong Portland cement, moderately hot Portland cement, low heat Portland cement, sulfate-resistant Portland cement, and the like. Among these, ordinary Portland cement, early-strength Portland cement, or ultra-early-strength Portland cement can develop strength at an early stage. In addition, medium heat Portland cement improves chemical resistance and long-term strength.

Further, the Portland cement preferably contains 3CaO · SiO ₂ in an amount of 45 to 80% by mass and 3CaO · A1 ₂ O ₃ in an amount of 4 to 20% by mass, more preferably 3CaO · SiO ₂ in an amount of 50 to 75% by mass, and those containing 3CaO · _Al 2 _{O 3} 5~15 wt% is more preferable. If the content ratio of 3CaO · SiO ₂ is 45 to 80 mass% and the content ratio of 3CaO · A1 ₂ O ₃ is out of the range of 4 to 20 mass%, the strength development property of the concrete for pavement may be lowered. .

Materials other than the binder will be described.
Examples of materials other than the binder include fine aggregate, coarse aggregate, water reducing agent, and water. The fine aggregate is not particularly limited, and examples thereof include river sand, mountain sand, land sand, sea sand, crushed sand, quartz sand, slag fine aggregate, lightweight fine aggregate, and a mixture thereof.
The blending amount of the fine aggregate is 1 to 250 parts by mass, more preferably 30 to 220 parts by mass with respect to 100 parts by mass of the binder because of the workability, strength development, and life of the paving concrete.

The coarse aggregate is not particularly limited, and examples thereof include gravel, crushed stone, slag coarse aggregate, lightweight coarse aggregate, or a mixture thereof.
The blending amount of the coarse aggregate is 80 to 420 parts by mass, more preferably 120 to 320 parts by mass with respect to 100 parts by mass of the binder because of the workability, strength development, and life of the paving concrete. In addition, as the coarse aggregate and the fine aggregate, regenerated aggregate can be used in addition to natural aggregate.

Water is not particularly limited, and tap water, sludge water, or the like can be used.
The water binder ratio (W / P: 100 × mass of water / mass of binder) is usually 12 to 35% by mass, preferably 13 to 30% by mass. When the water binder ratio is less than 12% by mass, the workability of the paving concrete is lowered, and when the blending amount of the water reducing agent is increased to improve the workability, the initial strength of the paving concrete is lowered. There is a fear. If the water binder ratio exceeds 35% by mass, the initial strength of the paving concrete may be deteriorated.

As the water reducing agent, lignin-based, naphthalenesulfonic acid-based, melamine-based, polycarboxylic acid-based water reducing agents, AE water reducing agents, high-performance water reducing agents, or high-performance AE water reducing agents can be used. Among these, it is preferable to use a high-performance water reducing agent or a high-performance AE water reducing agent having a large water-reducing effect, and it is more preferable to use a polycarboxylic acid-based high-performance water reducing agent or a high-performance AE water reducing agent.
The blending amount of the water reducing agent is preferably 0.05 to 1 part by mass in terms of solid content with respect to 100 parts by mass of the binder, and more preferably 0. 1 to 0.8 parts by mass.
The water reducing agent can be used in either liquid or powder form.

  In addition to the above materials, the concrete for paving of the present invention may contain a shrinkage reducing agent, an AE agent, an expansion material, a pigment, and the like.

  The concrete for paving according to the present embodiment can be obtained by kneading the concrete composition, laying it on a construction site (road or the like), curing and curing it. Examples of the curing method include, but are not limited to, warm curing using a curing sheet, steam curing, and the like.

The paving concrete thus obtained can exhibit a bending strength (initial bending strength) of 3.47 N / mm ² or more necessary for opening traffic at the age of one day, and is preferably designed for paving concrete. A bending strength of 4.5 N / mm ² or more, which is a reference strength, can be exhibited. The concrete for paving can exhibit a bending strength (long-term bending strength) of 8.5 N / mm ² or more after the age of 28 days, and preferably exhibits a bending strength of 9.5 N / mm ² or more. can do.

Furthermore, the paving concrete, can exhibit 20 N / mm ² or more compression strength (initial compression strength) at 1 day age of, preferably can exhibit 30 N / mm ² or more compression strength. Furthermore, the concrete for paving can exhibit a compressive strength (long-term compressive strength) of 110 to 135 N / mm ² after the age of 28 days, and preferably exhibits a compressive strength of 125 to 135 N / mm ^2. be able to.

As described above, the concrete for paving according to the present embodiment can satisfy the required strength (bending strength: 4.5 N / mm ² or more) of the concrete for paving and has excellent initial strength (compressive strength and bending strength). ), The traffic can be released very early after the paving work is started using the concrete for paving according to the present embodiment. Moreover, since the concrete for paving which concerns on this embodiment can also show | play the outstanding expression performance of long-term intensity | strength, rubbing etc. are hard to produce and it can be made into a thing with a very long life.

  As described above, the concrete for paving according to this embodiment has excellent initial strength and long-term strength. Therefore, according to the concrete for paving which concerns on this embodiment, while being able to exhibit sufficient strength expression performance for paving, such as a road, the period from the start of paving work to the opening of traffic can be shortened extremely.

  The embodiment described above is described for facilitating understanding of the present invention, and is not described for limiting the present invention. Therefore, each element disclosed in the above embodiment is intended to include all design changes and equivalents belonging to the technical scope of the present invention.

The concrete for paving according to the above embodiment has excellent strength (bending strength, compressive strength) and long-term strength in the initial stage (about 1 day of age), and is intended to reinforce concrete slabs such as bridges. It can also be used as thickening concrete.

EXAMPLES The present invention will be specifically described below with reference to examples, but the present invention is not limited to these examples.
1. Materials used (1) Admixture (A)
An admixture consisting of the following three components.
(I) Silica fume (BET specific surface area 20 m ² / g): 30% by mass
(Ii) Blast furnace slag fine powder (Blaine specific surface area 7000 cm ² / g): 40% by mass
(Iii) Natural anhydrous gypsum (Brain specific surface area 4000 cm ² / g): 30% by mass
(2) Cement A: Ordinary Portland cement (manufactured by Taiheiyo Cement)
C ₃ S: 63 mass%, C ₂ S: 11 mass%, C ₃ A: 9 mass%, C ₄ AF: 9 mass%
B: Early strong Portland cement (manufactured by Taiheiyo Cement)
C ₃ S: 66 mass%, C ₂ S: 8 mass%, C ₃ A: 10 mass%, C ₄ AF: 8 mass%
C: Moderate heat Portland cement (manufactured by Taiheiyo Cement)
C ₃ S: 42 mass%, C ₂ S: 35 mass%, C ₃ A: 3 mass%, C ₄ AF: 13 mass%
(3) Fine aggregate Mountain sand from Kakegawa City, Shizuoka Prefecture (4) Coarse aggregate Hard sandstone crushed stone 1305 from Sakuragawa City, Ibaraki Prefecture
(5) Water-reducing agent Polycarboxylic acid-based high-performance AE water-reducing agent (BASF Pozzolith, solid content 28%)

Table 1 shows the material composition of the concrete composition for paving, and Table 2 shows the slump value and strength data together with the unit amount. The binder is a general term for cement and the admixture (A).

(Measurement of compressive strength)
About the concrete composition for pavements produced as mentioned above (Examples 1-12, Comparative Examples 13-16), compressive strength was measured based on JIS-Al108.

[Measurement of bending strength]
About the concrete composition for pavements produced as mentioned above (Examples 1-12, Comparative Examples 13-16), bending strength was measured based on JIS-Al106.

About Experimental Examples 1-12, favorable workability and strength physical properties were obtained as concrete for paving.

It is possible to provide a concrete for paving that is excellent in long-term strength development, excellent in initial strength, has a long life, and can open traffic very early from the start of paving work.

Claims (2)

Bonds including pozzolanic substance fine powder having a BET specific surface area of 5~25m ² / g, blast furnace slag powder Blaine specific surface area of 5000~12000cm ² / g, the Blaine specific surface area of 3000~12000cm ² / g anhydrous gypsum, and cement A concrete for paving, which is obtained by curing a concrete composition containing at least a material, and has a bending strength of 3.5 N / mm ² or more at an age of 1 day. The concrete for paving according to claim 1, wherein the concrete composition contains the binder and water so that a water bonding ratio is 12 to 35% by mass.