JPH11189454A - Concrete composition - Google Patents

Abstract

PROBLEM TO BE SOLVED: To obtain a concrete composition capable of imparting strong resistance to freezing and melting and exhibiting characteristics excellent in strength. SOLUTION: This concrete composition comprises a binder including cement, water, aggregate and a hollow body exhibiting pozzolan reaction. In the concrete composition, slump value by slump examination (JIS A 1101) is not 0 and water/ cement ratio is 20-30% and powder amount is 50-900 kg/m<3> and hollow body amount exhibiting pozzolan reaction is 3-9 vol.%.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

TECHNICAL FIELD The present invention relates to a concrete composition having a particularly high resistance to freezing and thawing.

[0002]

2. Description of the Related Art AE
Concrete, in which fine closed cells are provided in the concrete by using a chemical admixture such as an agent, an AE water reducing agent, or a high-performance AE agent, has strong resistance to freezing and thawing. That is, since the freezing pressure of water generated in concrete when freeze-thawing is repeated is reduced by fine air bubbles entrained in concrete, AE concrete has strong resistance to freeze-thawing.

Meanwhile, high-strength concrete having a water cement ratio of about 30% or less has a large amount of powder during kneading.
Entrainment of air by chemical admixtures such as agents, AE water reducing agents and high performance AE agents is difficult. And it is extremely difficult to control the amount of air in concrete. In addition, since instantaneous demolding concrete by vibration compaction molding has a slump value of zero, air cannot be entrained by a chemical admixture such as an AE agent, an AE water reducing agent, or a high-performance AE agent. And it is extremely difficult to control the amount of air in concrete.

Further, when air is forcibly entrained into concrete, there is a problem that the strength is greatly reduced. Accordingly, an object of the present invention is to provide a concrete composition which can have a high resistance to freezing and thawing and can exhibit excellent strength.

[0005]

SUMMARY OF THE INVENTION As the research on the above-mentioned problem has been earnestly promoted, the water-cement ratio has become about 30%.
% Or less in the case of high-strength concrete or concrete that can be immediately removed from concrete by vibration compaction.
It has been revealed that air bubbles can be formed by physical means rather than by entrainment of air by a chemical admixture such as an E water reducing agent or a high-performance AE agent. That is, it was found that if the hollow body was dispersed in the concrete in advance and this hollow body was later eliminated, air bubbles could be formed as a result.

Accordingly, as a result of further research, as a result of dispersing fine hollow bodies exhibiting the pozzolan reaction in concrete, the hollow bodies gradually react with calcium hydroxide in the concrete to form hollow bodies. Component Si
It has been found that O ₂ dissolves, which allows fine air bubbles to form in concrete. The present invention has been achieved based on the above findings, and the object is a concrete composition including a cement-containing binder, water, aggregate, and a hollow body exhibiting a pozzolanic reaction, wherein the concrete composition The object is a slump test (JIS A 110
The slump value according to 1) is not zero and the water-cement ratio is 20
-30%, the amount of powder is 500-900 kg / m ³ , and the amount of the hollow body exhibiting the pozzolanic reaction is 3-9% by volume.
(Internal ratio).

In particular, binders including cement, water, aggregates,
And a concrete composition comprising a hollow body exhibiting a pozzolanic reaction, wherein the concrete composition has a slump value according to a slump test (JIS A 1101) of not zero, a water-cement ratio of 20 to 30%, and a powder. Quantity 50
0 to 900 kg / m ³ , water to 20 to 30 parts by weight, fine aggregate to 65 to 180 parts by weight, coarse aggregate to 75 to 190 parts by weight, and pozzolanic reaction with respect to 100 parts by weight of the binder. The problem is solved by the concrete composition, wherein the hollow body has a ratio of 4 to 11 parts by weight and the amount of the hollow body exhibiting the pozzolanic reaction is 3 to 9% by volume (internal ratio).

Another object of the present invention is to provide a concrete composition comprising a binder containing cement, water, an aggregate, and a hollow body exhibiting a pozzolanic reaction, wherein the concrete composition has a slump test (JIS A 1101). Is zero, the water-cement ratio is 20 to 35%, the amount of powder is 250 to 700 kg / m ³ , and the amount of the hollow body exhibiting the pozzolanic reaction is 3 to 9% by volume (internal ratio). It is solved by the concrete composition characterized by these.

In particular, binders including cement, water, aggregates,
And a hollow body exhibiting a pozzolanic reaction, and a concrete composition used for compaction by vibration, wherein the concrete composition used for compaction by vibration has a slump value of zero according to a slump test (JIS A 1101), Water-cement ratio is 20-35%, powder amount is 25
0 to 700 kg / m ³ , water is 20 to 35 parts by weight, and fine aggregate is 225 to 325 with respect to 100 parts by weight of the binder.
Parts by weight, 200 to 275 parts by weight of coarse aggregate, 4 to 11 parts by weight of the hollow body exhibiting the pozzolanic reaction, and 3 to 9% by volume of the hollow body exhibiting the pozzolanic reaction.
(Internal ratio).

[0010] Alternatively, a composition used for porous concrete having a porosity of 15 to 30% by vibration compaction molding, comprising a binder containing cement, water, aggregate, and a hollow body exhibiting a pozzolanic reaction, The concrete composition has a slump value of zero according to a slump test (JIS A 1101), a water-cement ratio of 20 to 35%, and a powder amount of 250 to 700 kg / m ³ (particularly 250
５００500 kg / m ³ ), water is 20 to 35 parts by weight, fine aggregate is 0 to 30 parts by weight, coarse aggregate is 415 to 535 parts by weight, and the pozzolanic reaction is 100 parts by weight of the binder. Is 3 to 9 parts by volume with respect to 100 parts by weight of the total amount of the binder and water.

That is, the concrete composition having the above characteristics has high viscosity of fresh concrete,
Entrainment of air by chemical admixtures such as E water reducer and high-performance AE agent is difficult, or air cannot be entrained by chemical admixtures because the slump value is zero.
Closed cells can be formed in concrete without using a chemical admixture such as an E agent, an AE water reducing agent, or a high-performance AE agent. In other words, since using 3-9% by volume hollow body exhibiting a pozzolanic reaction, dissolved components SiO ₂ constituting the hollow member by pozzolanic reaction after concrete forming, fine air bubbles are formed in the concrete by this You. Therefore,
Concrete using the concrete composition having the above characteristics exhibits strong resistance to freezing and thawing.

[0012] The decrease in concrete strength was small. In addition, if the hollow body exhibiting the pozzolanic reaction is hollow, bubbles can be formed by the pozzolanic reaction, and the object of the present invention is achieved. However, hollow spherical ceramics are preferred. The average particle size is 20
It is preferably ~ 350 µm. The density is 0.
It is preferably 68 to 0.70 g / cm ³ . That is, hollow spherical ceramics are not easily crushed during kneading, and the object of the present invention is effectively achieved.
That is, if crushed at the time of kneading, bubbles cannot be formed by the pozzolanic reaction. In this respect, spherical ones are most preferable. In addition, the average particle size is 20
The size of about 350 μm was preferred because it was difficult to be crushed during kneading, and the bubbles formed were not too large and not too small, and showed strong resistance to freezing and thawing. Is easily formed. In addition, those having a density of 0.68 to 0.70 g / cm ³ are preferable because the composition is easily dispersed at the time of kneading, and bubbles showing strong resistance to freezing and thawing are easily formed. Because.

[0013]

BEST MODE FOR CARRYING OUT THE INVENTION The concrete composition according to the present invention is a concrete composition comprising a binder containing cement, water, aggregate, and a hollow body exhibiting a pozzolanic reaction,
The concrete composition was subjected to a slump test (JIS A).
1101) is not zero (in particular, 18
that's all. 25 or less. ), The water-cement ratio is 20 to 30% (especially, 20% or more, 24% or less), and the powder amount is 50%.
0 to 900 kg / m ³ (particularly 600 kg / m ³ or more.
800 kg / m ³ or less. ), And the amount of the hollow body exhibiting the pozzolanic reaction is 3 to 9% by volume (particularly 4% by volume or more.
Volume% or less. Further, it is 7% by volume or less. Inner ratio). In particular, a cement composition containing cement, water, aggregate, and a concrete composition comprising a hollow body exhibiting a pozzolanic reaction,
The concrete composition was subjected to a slump test (JIS A).
1101) is not zero (in particular, 18
that's all. 25 or less. ), The water-cement ratio is 20 to 30% (especially, 20% or more, 24% or less), and the powder amount is 50%.
0 to 900 kg / m ³ (particularly 600 kg / m ³ or more.
800 kg / m ³ or less. ), Water is 20 to 30 parts by weight (particularly 20 parts by weight or more, 24 parts by weight or less), and fine aggregate is 65 to 180 parts by weight (particularly 100 parts by weight) with respect to 100 parts by weight of the binder. Above, 140 parts by weight or less), 75 to 190 parts by weight of coarse aggregate (particularly, 120 parts by weight or more).
140 parts by weight or less. ), The ratio of the hollow body exhibiting the pozzolanic reaction is 4 to 11 parts by weight, and the amount of the hollow body exhibiting the pozzolanic reaction is 3 to 9% by volume (especially 4% by volume or more; 8% by volume or less. Volume% or less, internal ratio).

Further, the concrete composition according to the present invention comprises:
A concrete composition comprising a cement-containing binder, water, aggregate, and a hollow body exhibiting a pozzolanic reaction, wherein the concrete composition is subjected to a slump test (JIS A1).
101), the slump value is zero, the water-cement ratio is 20 to 35% (particularly 25% or more, 30% or less), and the amount of powder is 250 to 700 kg / m ³ (particularly 350).
kg / m ³ or more. 450 kg / m ³ or less. ), And the amount of the hollow body exhibiting the pozzolanic reaction is 3 to 9% by volume (particularly,
4% by volume or more. 8% by volume or less. Inner ratio). In particular, a concrete composition used for vibration compaction molding, including a cement-containing binder, water, aggregate, and a hollow body exhibiting a pozzolanic reaction, wherein the concrete composition used for vibration compaction molding is a slump test. (JIS A 11
01) is zero and the water-cement ratio is 2
0 to 35% (especially 25% or more; 30% or less), and the amount of powder is 250 to 700 kg / m ³ (especially 350
kg / m ³ or more. 450 kg / m ³ or less. 20 to 35 parts by weight (particularly, 25 parts by weight or more, 30 parts by weight or less) and fine aggregate 2 parts by weight with respect to 100 parts by weight of the binder.
25 to 325 parts by weight (particularly 250 parts by weight or more; 290
Not more than parts by weight. ), 200 to 275 parts by weight of coarse aggregate (especially 210 parts by weight or more and 240 parts by weight or less), and 4 to 11 parts by weight of a hollow body exhibiting a pozzolanic reaction, and a hollow body exhibiting a pozzolanic reaction. 3 to 9% by volume
(Especially 4% by volume or more and 8% by volume or less. Internal ratio).

Alternatively, a binder containing cement, water, aggregate, and a hollow body exhibiting a pozzolanic reaction are included, and the porosity is 15 to 30% (particularly, 15% or more, 23% or less) by vibration compaction molding. The concrete composition has a slump value of zero according to a slump test (JIS A 1101) and a water-cement ratio of 20 to 35% (particularly 25% or more).
30% or less. ) And the amount of powder is 250-700 kg /
m ³ (especially 250 kg / m ³ or more; 500 kg / m ³
Less than. ), And water is added to 100 parts by weight of the binder.
0 to 35 parts by weight (particularly, 25 parts by weight or more, 30 parts by weight or less), fine aggregate of 0 to 30 parts by weight (particularly, 0 parts by weight or more, 5 parts by weight or less), and coarse aggregate of 415 to 15 parts by weight. 535 parts by weight (especially, 450 parts by weight or more, 500 parts by weight or less), and the hollow body exhibiting the pozzolanic reaction is 3 to 9 parts by volume (particularly, 100 parts by weight of the total amount of the binder and water). 4% by volume or more, further 5% by volume or more, 8% by volume or less, further 7
Volume% or less. Inner ratio).

The hollow body exhibiting the pozzolanic reaction is a hollow spherical ceramic. Its average particle size is 20-350
μm. Its density is 0.68-0.70 g / cm ³
It is. Examples of such a hollow body include Microcells SLG (trade name: white powder, manufactured by Chichibu Onoda Co., Ltd.).
Particle size range 20-300 μm. Average particle size 130 μm. True density 0.68-0.70 g / cm ³ . Bulk density 0.4g / c
m ³ . Compressive strength 700 kgf / cm ² . Melting point 1600
° C. Thermal conductivity 0.1 W / m ° C. pH 6-8. Non-absorbent. ).

If necessary, slag, fly ash, silica fume and the like may be partially used instead of cement. Hereinafter, a specific example will be described.

[0018]

Example 1 Using the composition having the composition shown in Table 1, 100
A concrete specimen having a size of 100 mm x 400 mm was prepared. Table 1 Hollow body W / C slump Fine bone unit amount (kg / cm ³ ) High performance AE agent Addition amount (%) Value (cm) Material ratio WCSG Water reducing agent 2% 23 60 45% 138 600 771 978 C × 1.5% 0A 4% 23 60 42% 138 600 719 978 C × 1.5% 0A 6% 23 60 41% 138 600 666 978 C × 1.5% 0A 8% 23 60 39% 138 600 613 978 C × 1.5% 0A 10% 23 60 37% 138 600 560 978 C × 1.5% 0A 0% 23 60 42% 138 600 692 978 C × 1.5% 9A * Hollow body = Microcells SLG manufactured by Chichibu Onoda Co., Ltd. It was replaced and added.

W = water C = ordinary Portland cement manufactured by Chichibu Onoda Co., Ltd. (specific gravity 3.16) S = fine aggregate (crushed sand from Chichibu-gun, Saitama (specific gravity 2.62)) G = coarse aggregate (chichibu, Saitama County crushed stone 2005 (maximum aggregate size 20 mm, specific gravity 2.71) High-performance water reducing agent = OND-303 manufactured by Chichibu Onoda Co., Ltd. AE agent = AE300 manufactured by Takemoto Yushi Co., Ltd. Slump value is based on JIS A 1101. 28 days compression test (J
The results of the freeze-thaw test described in IS A 1108) and JIS A 6204 “Chemical admixture for concrete” are shown in Table 2.

Table 2 Amount of hollow body added Compressive strength freeze-thaw test results (relative kinetic elasticity coefficient (%)) (N / mm ² ) 90 cycles 180 cycles 300 cycles 0% (outside of invention) 108 1000 (break) − 2% (outside the invention) 105 93 850 (break) 4% 104 98 97 9 6% 101 99 96 908% 91.2 100 99 95 10% (outside the invention) 78.4 100 99 95 It can be seen from Table-2. Thus, it can be seen that the present invention exhibits strong resistance to freeze-thaw. In particular, 3 to 9% by volume, especially 4% by volume of the hollow body exhibiting the pozzolanic reaction
As described above, it can be seen that when used at a ratio of 8% by volume or less, particularly 7% by volume or less, it exhibits strong resistance to freezing and thawing and also has excellent compressive strength.

[0021]

Example 2 Immediate demolding was carried out by compaction by vibration using an interlocking block molding machine, and concrete having a composition shown in Table 3 (a slump value according to JIS A 1101 was zero) and a concrete having a size of 60 mm × 60 mm × 200 mm was used. A block specimen was prepared.

Table 3 Addition amount of hollow body (kg / cm ³ ) Water cement Crushed sand No. 7 crushed stone No. 6 crushed stone Admixture 0% 120 400 1080 468 468 468 4.0 2% 120 400 1027 468 468 4.04 % 120 400 974 468 468 4.0 6% 120 400 921 468 468 4.0 8% 120 400 868 468 468 4.0 10% 120 400 815 468 468 4.0 * Hollow body: product name of Chichibu Onoda Co., Ltd. Microcells SLG Cement = Ordinary Portland cement manufactured by Chichibu Onoda Co., Ltd. Admixture = Mighty 150 manufactured by Kao Corporation For the above concrete blocks, a bending test (JASS7M-101) of 7 years of age and JIS A 6204
A freeze-thaw test was performed according to the appendix of “Chemical admixture for concrete”, and the results are shown in Table-4.

Table 4 Hollow body Bending strength freeze-thaw test result (relative kinetic elasticity coefficient (%)) Addition amount (N / mm ² ) 30 cycles 90 cycles 120 cycles 300 cycles 0% (non-invention) 6.399 99 32 0 (break)-2% (not invented) 6.3 97 74 63 454 4% 6.1 96 94 92 86 6% 5.2 99 99 91 84 8% 5.0 98 95 93 88 88 10% (out of invention) ) 4.6 100 99 97 96 As can be seen from Table 4, it can be seen that those according to the present invention exhibit strong resistance to freeze-thaw. In particular, 3 to 9% by volume, especially 4% by volume of the hollow body exhibiting the pozzolanic reaction
As described above, it can be seen that when used at a ratio of 8% by volume or less, it exhibits strong resistance to freezing and thawing and also has excellent bending strength.

[0024]

Example 3 Vibration compaction and immediate demolding were performed by an interlocking block molding machine, and a composition having the composition shown in Table 5 (the slump value according to JIS A 1101 was zero) was used to produce a 60 mm × 60 mm × 200 mm gap. Porous concrete block specimens having a rate of 15 to 30% were produced.

Table 5 Hollow body Porosity unit amount (kg / cm ³ ) Addition amount (%) CW No. 7 crushed stone No. 6 crushed stone No. 10 to 13 crushed stone Water reducing agent 5% 15 362 115 1028 1028 −4.0 5% 22 364 100 1048 1048-4.0 5% 30 367 80--2150 4.0 7% 15 346 115 1028 1028-4.0 7% 22 350 100 1048 1048-4.0 7% 30 354 80--2150 4.0 0% 15 400 115 1028 1028- 4.0 0% 22 400 100 1048 1048-4.0 5% 30 400 80--2150 4.0 * Hollow body = Microcells SLG made by Chichibu Onoda Co., Ltd. W = Water C = Ordinary Portland cement made by Chichibu Onoda Co., Ltd. Performance water reducing agent) = Mighty 150 manufactured by Kao Corporation The bending test (JASS7M-101) of 7 days of age for the above porous concrete block and JIS A
Table 6 shows the results of the freeze-thaw test performed according to the appendix of 6204 “Chemical admixture for concrete”.

Table-6 Hollow Body Porosity Bending Strength Freeze-Thaw Test Results (Relative Dynamic Elastic Modulus (%)) Addition Amount (%) (N / mm ² ) 30 cycles 90 cycles 120 cycles 300 cycles 0% 15 4.7 99 320 (break)-0% 22 4.3 97 81 430 (break) 0% 30 2.3 94 69 390 (break) 5% 15 4.6 100 97 92 825 5% 22 4.2 98 96 92 85 5% 30 2.3 98 96 90 84 7% 15 4.699 96 94 89 7% 22 4.3 100 99 95 927 7% 30 2.2 99 96 95 90 As can be seen from Table-6, It can be seen that those according to the present invention show strong resistance to freeze-thaw. In particular, 3 to 9% by volume, especially 4% by volume of the hollow body exhibiting the pozzolanic reaction
As described above, it can be seen that when used at a ratio of 8% by volume or less, it exhibits strong resistance to freezing and thawing and also has excellent bending strength.

[0027]

According to the present invention, it is possible to obtain concrete having high resistance to freezing and thawing and exhibiting excellent strength.

Claims (6)

[Claims] 1. A concrete composition comprising a cement-containing binder, water, aggregate, and a hollow body exhibiting a pozzolanic reaction, wherein the concrete composition has a slump value of zero according to a slump test (JIS A 1101). In addition, the water-cement ratio is 20 to 30%, the amount of powder is 500 to 900 kg / m ³ , and the amount of the hollow body exhibiting the pozzolanic reaction is 3 to 9% by volume (internal ratio). Concrete composition. 2. Water is 20 parts per 100 parts by weight of the binder.
３０30 parts by weight, 65-180 parts by weight of fine aggregate, 75-190 parts by weight of coarse aggregate, 4 hollow bodies exhibiting pozzolanic reaction
The concrete composition according to claim 1, wherein the proportion is from 1 to 11 parts by weight. 3. A concrete composition comprising a binder containing cement, water, aggregate, and a hollow body exhibiting a pozzolanic reaction, wherein the concrete composition has a slump value of zero according to a slump test (JIS A 1101). The water-cement ratio is 20 to 35%, the amount of powder is 250 to 700 kg / m ³ , and the amount of the hollow body exhibiting the pozzolanic reaction is 3 to 9% by volume (internal ratio). Concrete composition. 4. 20 parts by weight of water per 100 parts by weight of binder
35 to 35 parts by weight, 225 to 325 parts by weight of fine aggregate, 200 to 275 parts by weight of coarse aggregate, and 4 to 11 parts by weight of a hollow body exhibiting a pozzolan reaction, which are used for vibration compaction molding. The concrete composition according to claim 3, wherein 5. 20 parts by weight of water per 100 parts by weight of binder
~ 35 parts by weight, fine aggregate 0-30 parts by weight, coarse aggregate 41
5 to 535 parts by weight, and the total amount of the binder and water is 10
The hollow body exhibiting the pozzolanic reaction is 3 to 0 parts by weight.
The concrete composition according to claim 3, which is used for porous concrete having a porosity of 15 to 30% by vibration compaction molding at a ratio of 9 parts by volume. 6. The hollow body exhibiting a pozzolanic reaction is a hollow spherical ceramic having an average particle diameter of 20 to 350 μm.
m, claim density characterized in that it is a 0.68~0.70g / cm ³ 1~ claim 5 or concrete composition.