JP2002355810A - Method for measuring unit water amount of fresh concrete - Google Patents

Abstract

PROBLEM TO BE SOLVED: To simply and accurately measure a unit water amount of fresh concrete. SOLUTION: For a method for estimation of a unit water amount of fresh concrete, where a unit volume of concrete before kneading the fresh concrete is V0 a unit water amount is W0 an air amount (%) is A0 and a unit volume mass (kg/m<3> ) is γ0 , and besides an air amount (%) of fresh concrete actually manufactured and a unit volume mass (kg/m<3> ) are respectively A1 and γ1 , a water amount W1 of the fresh concrete actually manufactured are calculated from formula (1) and formula (2) by making respectively ρW and ρS densities of water and fine aggregate. Then, the calculated W1 and a volume V1 of the fresh concrete actually manufactured are used, and an actual unit water amount W1 ' is calculated from 9 formula (3).

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to a method for measuring a unit water content of fresh concrete.

[0002]

2. Description of the Related Art Controlling the quality of fresh concrete is an extremely important task in improving the reliability and economy of concrete work. In the field, fresh concrete is sampled from a mixer or the like and subjected to various tests. It is carried out.

[0003] One of the management indexes of fresh concrete is a consistency indicating the degree of resistance to deformation or flow. If the consistency is small, the flowability is large and the casting is easy, but the material separation is difficult. Is more likely to occur. If the consistency is large, material separation is unlikely to occur, but the fluidity is poor and the filling operation is not easy.

[0004] Therefore, it is necessary to confirm, for example, by a slump test that the consistency is appropriately set in accordance with the situation of the casting site.

[0005]

Here, the consistency of fresh concrete, as long as the concrete has the same water-cement ratio, the smaller the unit water volume, the greater the consistency and the occurrence of breathing can be suppressed.

[0006] Therefore, measuring the unit water amount of fresh concrete has a great significance in terms of the quality of concrete, and a heating method, an RI method, and the like have been conventionally proposed.

However, in the heating method, as the number of samples increases, the drying time naturally increases, and during that time, the amount of water decreases due to the hydration reaction, and the unit water amount cannot be accurately determined.

[0008] Further, the RI method of irradiating radiation has a problem that correction for eliminating the influence of other concrete materials is required.

The present invention has been made in view of the above circumstances, and has as its object to provide a method for measuring the unit water amount of fresh concrete, which can easily and accurately measure the unit water amount of fresh concrete. .

[0010]

In order to achieve the above object, a method of measuring the unit water amount of fresh concrete according to the present invention is as described in claim 1, wherein the unit volume of concrete before kneading fresh concrete is V _0. , The unit water amount is W ₀ , the air amount (%) is A _0, and the unit volume mass is γ.
₀ to one, actually when air quantity of the produced fresh concrete (%) and the unit volume weight was to A ₁ and gamma _1, respectively, actually the amount of water W ₁ of the produced fresh concrete, [rho _w, [rho _s respectively water, as the density of the fine aggregate, the following _{equation, W 1 = W 0 + ΔW} s (1) ΔW s = ((γ 0 / γ 1) · V 0 · (1-a 1/100) -V ₀ · (1−A _0/100 )) / (1 / ρ _w −1 / ρ _s ) (2) Then, the calculated W ₁ and the volume V ₁ of the actually produced fresh concrete are calculated. The unit water amount W ₁ ′ of the fresh concrete is calculated by the following equation: W ₁ ′ = W ₁ / V ₁ (3)

The present invention is based on the following principle. In the following description, mass and capacity will be described in specific units. However, this is only for the purpose of facilitating understanding of the present invention. It does not deviate.

In the present invention, the concrete unit volume V ₀ , the unit water amount W ₀ , the air amount (%) A ₀ and the unit volume mass γ ₀ before kneading fresh concrete are defined as:
In addition to the numerical values set in the indication formulation and on-site formulation, water,
Although the concept includes an actual measurement value when each concrete material such as cement, fine aggregate, and coarse aggregate is measured, here, for convenience of understanding of the invention, a description will be given as a numerical value set by the formula composition.

First, the concrete composition of concrete is given by the following formula. W ₀ + C ₀ + S ₀ + G ₀ = M ₀ (11) W ₀ / ρ _w + C ₀ / ρ _c + S ₀ / ρ _s + G ₀ / ρ _G = V ₀ · (1−A _0/100 ) (12)

Here, W ₀ ; amount of water per 1 m ^{3 of} fresh concrete (kg) C ₀ ; amount of cement per 1 m ^{3 of} fresh concrete
(kg) S ₀ ; Fine aggregate amount per 1 m ^{3 of} fresh concrete (k
g) G ₀ ; amount of coarse aggregate per 1 m ^{3 of} fresh concrete (k
g) M ₀ ; total mass per m ^{3 of} fresh concrete (k
g) ρ _w ; water density (g / cm ³ ) ρ _c ; cement density (g / cm ³ ) ρ _s ; fine aggregate density (g / cm ³ ) ρ _G ; coarse aggregate density (g / cm ³ ) V ₀ ; volume of fresh concrete = 1 m ³ A ₀ ; air volume of fresh concrete (%)

Therefore, the unit volume mass (kg / m ³ ) γ ₀ of the fresh concrete can be expressed by the following equation. γ ₀ = M ₀ / V ₀ = (W ₀ + C ₀ + S ₀ + G ₀ ) / ((W ₀ / ρ _w + C ₀ / ρ _c + S ₀ / ρ _s + G ₀ / ρ _G ) / (1-A ₀ / 100)) (13)

On the other hand, assuming that the actually measured unit volume mass (kg / m ³ ) of fresh concrete is γ ₁ , γ ₁ is originally as shown in the formula, and γ ₁ = M ₀ / V ₀ = _{(W 0 + C 0 + S} 0 + G 0) / ((W 0 / ρ w + C 0 / ρ c + S 0 / ρ s + G 0 / ρ G) / (1-a 0/100)) (14) to become should It is.

However, actually, the measured γ ₁
Often does not match the γ ₀ of the indicated formulation.

This is because the actual surface water content of the fine aggregate differs from the surface water content of the fine aggregate expected by the blending method because the wet state of the fine aggregate varies depending on the storage environment. However, this is mainly due to the fact that an error tends to occur between the two, and also that the amount of air is different from the amount of air in the formula formulation.

The present invention is an epoch-making technical idea that, if the air amount is accurately measured, the unit water amount can be measured by using the error relating to the surface water content of the fine aggregate in reverse.

That is, an error easily occurs in the surface water content of the fine aggregate as described above, and therefore, the unit volume mass (kg / m ³ ) γ of the fresh concrete actually measured.
₁ generally does not match γ ₀ in the indicated formulation.

Here, the fine aggregate amount S set in the indicated composition
Assuming that surface water of ΔW _s (kg) is actually contained in ₀ , regarding the volume of fresh concrete,
Actually, it becomes as follows. _{That, (W 0 / ρ w +} ΔW s / ρ w) + C 0 / ρ c + (S 0 / ρ s -ΔW s / ρ s) + G 0 / ρ G = V 1 · (1-A 1/100) (16)

Here, V ₁ ; volume of produced fresh concrete (m ³ ) A ₁ ; air volume of produced fresh concrete (%)

[0023] Thus, (12) and (16) [Delta] W from the equation _{s (1 / ρ w -1 /} ρ s) = V 1 · (1-A 1/100) -V 0 · (1-A 0 / 100) (17) The following relationship is derived.

On the other hand, even if there is an error in the surface water content,
As for the total mass per m ^{3 of} fresh concrete, there is no difference between the indicated mix and the actual one produced, so V ₁ = M ₁ / γ ₁ = M ₀ / γ ₁ = γ ₀ · V ₀ / γ ₁ to become.

[0025] Using this relationship, and solving for ΔW _s the equation _{(17), ΔW s = ((γ 0} / γ 1) · V 0 · (1-A 1/100) -V 0 · (1- _{a 0/10 0)) /} (1 / ρ w -1 / ρ s) and since (19), the actual amount of water W ₁ contained in the fresh concrete produced _{is, W 1 = W 0 + ΔW} s (20 ).

Here, due to the fact that the setting of the surface water content was different from the actual one, the volume of the produced fresh concrete is not V ₀ but V _{1 in the} indicated composition.
Becomes

[0027] Thus, the unit water amount of fresh concrete produced is the W ₁ rather, W ₁ represented by the following formula ', i.e. W _1' = W become ₁ / V ₁ (24).

Therefore, the unit volume mass γ ₁ and the air amount A ₁
Is actually measured, and this is substituted into equation (19) to obtain ΔW _s
Is calculated, the unit water amount W ₁ ′ (kg / m ³ ) of the produced fresh concrete can be obtained from the equation (24).

Incidentally, the unit cement amount C ₁ ′ (kg /
m ³ ), the unit fine aggregate amount S ₁ ′ (kg / m ³ ), and the unit coarse aggregate amount G ₁ ′ (kg / m ³ ) can also be calculated by the following equations. _{C 1 '= C 1 / V} 1 (24) S 1' = S 1 / V 1 (25) G 1 '= G 1 / V 1 (26)

[0030]

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, an embodiment of a method for measuring a unit water amount of fresh concrete according to the present invention will be described.
This will be described with reference to the accompanying drawings. It is to be noted that the same reference numerals are given to components and the like that are substantially the same as those in the conventional technology, and description thereof is omitted.

FIG. 1 is a flowchart showing the procedure of the method for measuring the unit water amount of fresh concrete according to the present embodiment. As shown in the figure, in the method for measuring the unit water amount of fresh concrete according to this embodiment, first, water, cement,
Fine aggregate and coarse aggregate are kneaded to produce fresh concrete (step 101).

Next, the air amount A ₁ (%) and the unit volume mass γ ₁ (kg / m ³ ) of the produced fresh concrete are measured (step 102).

Next, measured amount of air A ₁ and unit volume mass gamma ₁ (2) _{formula, ΔW s = ((γ 0} / γ 1) · V 0 · (1-A 1/100) -V ₀ · (1−A _0/100 )) / (1 / ρ _w −1 / ρ _s ) (2) to calculate ΔW _s (step 103).

[0034] Here, V _0; concrete volume in How to Display compounded = 1m ³ W _0; How to Display fresh concrete 1 m ³ per volume of water in the formulation _{(kg) A 0 (%)} ; How to Display air amount in the formulation (%) γ _0; Unit volume mass (kg / m ³ ) ρ _w ; density of water (g / cm ³ ) ρ _s ; density of fine aggregate (g / cm ³ )

Next, using the calculated [Delta] W _s, (1)
Substituting into the equation, W ₁ = W ₀ + ΔW _s (1), calculates the amount of water W ₁ contained in the actually produced fresh concrete (step 104).

Next, using the calculated W ₁ and the volume V ₁ of the actually produced fresh concrete, the unit water amount W ₁ ′ of the fresh concrete is expressed by the following equation: W ₁ ′ = W ₁ / V ₁ (3 ) (Step 105).

As described above, the file according to this embodiment is
According to the method for measuring unit water content of fresh concrete,
The initial setting for the surface water content of the aggregate is the actual surface water content.
Error, and as a result, the unit mass
Even if the value differs from the one manufactured at the time,
Utilizing this, the unit volume mass γ actually manufactured ₁
And air volume A₁By measuring the actual production
Simple and high unit water volume for fresh concrete
It is possible to measure with accuracy.

When the unit volume mass is the same between the composition shown and the one actually manufactured, the set value of the surface water content of the fine aggregate is the same as the actual one, and therefore,
The unit water volume can be considered to be the same as the unit water volume of the indicated formulation.

In this embodiment, the concrete unit volume V ₀ , the unit water amount W ₀ , the air amount (%) A _0, and the unit volume mass γ ₀ before kneading the fresh concrete are set to numerical values set in the nominal mixture. Instead of this, a numerical value set in the on-site blending may be used, and the present invention can be applied even when there is an error in the measurement of each concrete material.

[0040]

As described above, according to the method for measuring the unit water content of fresh concrete of the present invention, the initial set value relating to the surface water content of fine aggregate causes an error from the actual surface water content, and as a result, even unit volume mass becomes a value different between those actually produced as the previous one kneading the fresh concrete, to actually measure the ₁ and unit volume weight γ and air quantity a ₁ Thereby, it is possible to measure the unit water amount of the actually produced fresh concrete with high accuracy.

[0041]

[Brief description of the drawings]

FIG. 1 is a flowchart showing a procedure of a method of measuring a unit water amount of fresh concrete according to an embodiment.

 ──────────────────────────────────────────────────続 き Continued on the front page (72) Inventor Shigeyuki Togawa 4-640 Shimoseito, Kiyose-shi, Tokyo F-term in Obayashi Corporation Technical Research Institute, Inc. (reference) 2E172 BA27 4G056 AA07 DA09

Claims (1)

[Claims] 1. The concrete unit volume before fresh concrete kneading is V ₀ , the unit water amount is W ₀ , the air amount (%) is A _0, and the unit volume mass is γ _0. Assuming that the air content (%) and the unit mass of the concrete are A ₁ and γ ₁ , respectively, the water content W ₁ of the actually produced fresh concrete is represented by ρ _w ,
water [rho _s respectively, as the density of the fine aggregate, the following _{equation, W 1 = W 0 + ΔW} s (1) ΔW s = ((γ 0 / γ 1) · V 0 · (1-A 1/100) - _{V 0 · (1-a 0} /100)) / (1 / ρ w -1 / ρ s) calculated in (2), then of the actually manufactured and W ₁ calculated fresh concrete volume V ₁ unit water content measuring method in fresh concrete, characterized by calculating by the 'following equation, W _1' unit water W ₁ of the fresh concrete _{= W 1 / V 1 (3} ) using.