JP2007245624A - Method for measuring unit amount of water for fresh concrete - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a method for measuring unit amount of water for fresh concrete capable of measuring the unit amount of water in a short time and at a low cost without being influenced by a sampling error of coarse aggregate. <P>SOLUTION: Mortar is extracted from the fresh concrete, and unit volume mass of this mortar is measured. Using the measured value of the unit volume mass of this mortar, the unit amount of water of the mortar is determined by the unit volume mass method. From the unit amount of water of this mortar, the unit amount of water of the fresh concrete is determined. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

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

  In order to ensure the quality of concrete structures, it is important to properly manage the unit water volume of fresh concrete used for concrete structures.

  For this reason, conventionally, various techniques for measuring the unit water amount of fresh concrete have been proposed.

  Known unit water mass measurement techniques for fresh concrete include unit volume mass method, heat drying method, RI method and the like.

  The above unit volume mass method is a method of measuring the unit volume mass of fresh concrete to be measured, and comparing the measured value and the set value of the unit volume mass to obtain the unit water amount of the fresh concrete to be measured. It is.

  This unit volume mass method utilizes the fact that the water in fresh concrete has a lower specific gravity than other materials. That is, when the measured value of the unit volume mass of the fresh concrete to be measured is larger (or smaller) than the set value of the unit volume mass, the unit water amount of the fresh concrete is smaller (or larger).

  The heat drying method is a method in which a mortar or concrete sample is heated and dried, and the unit water amount of fresh concrete is measured from the difference in mass of the sample before and after heating.

Further, the RI method is a method of measuring unit water amount of fresh concrete by irradiating fresh concrete with neutrons, for example. In this RI method, using the property that neutrons are attenuated by hydrogen, the amount of water (hydrogen is almost present in water in concrete) is calculated backward from the number of neutrons attenuated.
JP 2005-181287 A JP 2004-98389 A

  However, in the conventional unit volume mass method, fresh concrete is used as a sample, which is affected by the sampling error of the coarse aggregate contained in the sample.

  There is also a method of correcting the sampling error by washing out coarse aggregate. However, when the above correction is performed, there are problems that the measurement time becomes long and time is required.

  In addition, the heat drying method can obtain a highly accurate measurement result by correcting the initial hydration of cement, the excessive or excessive size of aggregate, and the like. However, when the number of samples increases, there is a problem that the time required for the drying becomes longer.

In addition, since the RI method is affected by the target material, a highly accurate measurement result can be obtained by obtaining a relational expression between the neutron transmission amount of the fresh concrete to be measured and the unit water amount in advance. it can. However, since a relatively expensive dedicated device is required, there is a problem that the cost increases.

  The present invention has been made to solve such a conventional problem, and provides a method for measuring the unit water amount of fresh concrete that can suppress the cost increase in a short time without being affected by the sampling error of the coarse aggregate. The purpose is to do.

(1) The method for measuring the unit water content of the fresh concrete of the present invention is as follows:
Collecting mortar from the fresh concrete,
Measure the unit volume mass of the mortar,
Using the measured value of the unit volume mass of the mortar to determine the unit water amount of the mortar by the unit volume mass method,
A unit water amount of the fresh concrete is obtained based on a unit water amount of the mortar.

  The mortar contained in the fresh concrete can be collected by a wet screening method or the like. In the wet screening method, mortar is collected from fresh concrete using a sieve.

  In the present invention, since the unit water amount of mortar collected from fresh concrete is measured, the influence of sampling error of coarse aggregate can be eliminated. The set value of the unit volume mass of the mortar is related to the set value of the unit volume mass of the concrete. Moreover, the set value of the unit volume mass of concrete changes with the quality requested | required of concrete. That is, the set value of the unit volume mass of the mortar varies depending on the quality required for the concrete.

  Further, since it is not necessary to heat and dry the mortar, the measurement time can be shortened as compared with the heat drying method. Furthermore, since a dedicated device such as the RI method is not required, measurement can be easily performed at low cost.

  Therefore, the unit water amount measuring method for fresh concrete according to the present invention can be easily carried out at a construction site or the like. Further, for example, it is possible to inspect the unit water amount of the fresh concrete of all the mixer trucks.

  Furthermore, the unit water amount of fresh concrete can be obtained quickly and accurately, and the unit water amount can be properly managed, which can contribute to improving the quality of concrete.

  (2) In the unit volume mass method, the unit water amount of the mortar is obtained based on the difference between the measured value of the unit volume mass of the mortar and the set value of the unit volume mass of the mortar.

  Since water in mortar has a lower specific gravity than other materials (such as cement), if the measured value of unit volume mass in the mortar to be measured is larger than the set value of unit volume mass in this mortar, It can be seen that there is little water in the mortar, that is, the unit water amount is small.

  On the contrary, if the measured value of the unit volume mass in the mortar to be measured is smaller than the set value of the unit volume mass of the mortar, there is a lot of water in the mortar to be measured, that is, the unit water amount is large. I understand.

  By utilizing this relationship, the unit water mass of the mortar can be determined by measuring the unit volume mass of the mortar. The unit water amount of the mortar is calculated by substituting the measured value of the unit volume mass of the mortar to be measured and various numerical values related to the mortar into a predetermined mathematical formula.

  The unit water amount of fresh concrete is calculated by substituting the unit water amount of mortar calculated above and various numerical values related to the reference fresh concrete into a predetermined mathematical formula.

  In this invention, the unit volume mass of the mortar extract | collected from fresh concrete is measured, and the unit amount of water of a mortar is calculated | required using this measurement result. And since the unit water amount of fresh concrete is calculated | required based on the unit water amount of this mortar, the unit water amount of fresh concrete can be calculated | required in a short time and low cost, without being influenced by the sample error of a coarse aggregate.

  Next, the unit water amount measuring method for fresh concrete according to the present invention will be described in detail with reference to the drawings.

  FIG. 1 is a flowchart showing a measurement procedure of a unit water amount measurement method for fresh concrete according to the present invention.

  Here, first, for example, fresh concrete is collected from a mixer truck (S11). This collection can be performed according to, for example, “Sample Collection Method” of JIS A 5308 9.1.

  Next, mortar is collected from the collected fresh concrete (S12). The mortar can be collected, for example, by wet screening using a sieve.

  In the present embodiment, the collected fresh concrete is put into a 5 mm sieve set in a vibrating sieve and the mortar is sieved. The volume of fresh concrete to be screened at one time is about 1 liter (about half of the hand scoop).

  Sifting ends when the mortar is passing through the sieve (approximately 10 seconds is a guide). Discard the fresh concrete remaining on the sieve, collect fresh concrete again, and screen the mortar. This operation is repeated until the required amount of mortar (about 2 liters) is reached.

  Next, the air quantity of the collected mortar is measured with an air meter or the like (S13). This measurement can be performed, for example, in accordance with JIS A 1128 “Test method by pressure of air amount of fresh concrete”.

  The mass and volume of the air meter are preferably confirmed every measurement day. Moreover, since the air meter can use what is generally used, the detailed description is abbreviate | omitted.

  Next, the unit volume mass of the collected mortar is measured (S14). Next, the unit water mass of the mortar is calculated by the unit volume mass method using the measured value of the unit volume mass of the mortar (S15).

The unit volume mass method obtains the unit water amount of the mortar by comparing the measured value of the unit volume mass of the mortar to be measured with the set value of the unit volume mass of the mortar.

  That is, the water in the mortar has a lower specific gravity than other materials (such as cement), so if the measured value of the unit volume mass of the mortar to be measured is larger than the set value of the unit volume mass of the mortar, measure it. It turns out that the measured value of the unit water amount of the target mortar is smaller than the set value of the unit water amount of the mortar.

  On the other hand, if the measured value of the unit volume mass of the mortar to be measured is smaller than the set value of the unit volume mass of the mortar, the measured value of the unit water volume of the mortar to be measured is the unit of the mortar. It can be seen that the water volume is larger than the set value.

  From the above relationship, the unit water amount of the mortar to be measured can be calculated by substituting the measured value of the unit volume mass of the mortar to be measured into a predetermined mathematical formula.

  In the present embodiment, the unit volume mass and the air amount of the mortar to be measured are measured.

  Next, the unit water amount of the mortar to be measured is obtained by substituting numerical values related to the measurement result, the mortar and the fresh concrete into the following formula (1). Next, the unit water amount of fresh concrete is obtained by substituting the unit water amount of mortar obtained above into the following formula (2).

Wm = Wm ₀ + ΔW ′ (1)
However, Wm: Measured amount of water in 1 m ^{3 of} mortar (kg / m ³ )
Wm ₀ : Unit water amount set value in 1 m ^{3 of} mortar (kg / m ³ )
Wm ₀ = (W ₀ × 1000) / Vm ₀
W ₀ : Set mass of water in 1 m ^{3 of} concrete (kg)
Vm ₀ : Set volume (liter) of mortar in 1 m ^{3 of} concrete
ΔW ': error of unit water content of mortar (mortar 1m ³ per)
ΔW ′ = (γm ₁ × (1−0.01 Am ₀ −0.001 ×
ΔV) −γm ₀ ) / (1−0.001γm ₁ )
γm ₁ : Measured value of unit volume mass excluding mortar air volume
γm ₁ = 1000 × (M ₁ −M _a ) / (V _a × (1-0.01 Am ₁ )
Am ₀ : Target air amount of mortar (%)
ΔV: Volume reduction due to water infiltration into cement particles (liter)
γm ₀ : Set value of unit volume mass of mortar (kg / m ³ )
γm ₀ = Mm ₀ / Vm ₀ = 1000 × (W ₀ + C ₀ + Sm ₀ + G1m ₀
+ G2m ₀ ) / Vm ₀ )
M ₁ : Measurement mass (air meter + mortar sample) (kg)
M _a : Mass of all containers including air meter lid (kg)
V _a : Lower container volume of air meter (liter)
Am ₁ : Measurement air volume of mortar (%)
Mm ₀ : Set mass of mortar in 1 m ^{3 of} concrete (kg)
Vm ₀ : Set volume (liter) of mortar in 1 m ^{3 of} concrete
W = (Wm × Vm ₀ ) / 1000 (2)
W: Estimated unit water volume of fresh concrete (kg / m ³ )
In addition, since the said numerical formula (1), (2) is almost the same as the numerical formula currently used when calculating | requiring the unit water amount of the conventional fresh concrete, the description is abbreviate | omitted.

  FIG. 2 is a data sheet 20 used when measuring the unit water amount of fresh concrete by the method for measuring unit water amount of fresh concrete of the present invention.

In this data sheet 20, a column 21 for entering general items such as test date, placement site, mixer truck, water-cement ratio of fresh concrete, a column 22 for entering the unit quantity and material density of fresh concrete used, Fill in the column 23 where you want to enter the oversized and undersized particles of the aggregate, the column 24 where you can enter the volume reduction due to water absorption of the cement, the column 25 where you can enter the amount of mortar in 1 m ^{3 of} fresh concrete, and the target air volume of the mortar. A column 26, a column 27 for entering the measurement results of the mass and air amount of the air meter, and a column 28 for entering the measurement results and various calculation results regarding mortar and fresh concrete are provided.

In the column 21 for filling in the general items, the test date, the placement site, the number of mixer trucks, the water cement ratio, the name of the factory for manufacturing fresh concrete, the Fc (design standard strength of fresh concrete), the name of the blend of fresh concrete, A column for entering the target air amount A ₀ of fresh concrete is provided.

In the column 22 for entering the unit amount and material density of the above-mentioned fresh concrete material, water W ₀ , cement C ₀ , fine aggregate S ₀ , coarse aggregate (two types) G1 ₀ , G2 ₀ , high performance AE Water reducing agent S
A column P ₀ is provided. Further, this column 22, the total mass Mc ₀ of the W ₀ to SP _0, forgot to fill the volume Vc ₀ of the concrete is provided.

  In the column 23 for entering the oversized and oversized particles of the above aggregate, enter the content of oversized particles (5 mm or more), the content of oversized particles (5 mm or less), and the amount of SP (high performance AE water reducing agent) used. A column to do is provided.

In the column 25 for entering the amount of mortar in 1 m ^{3 of the} fresh concrete, a column of items similar to the column 22 for entering the unit amount and material density of the material used for the fresh concrete is provided.

In the column 27 for entering the items related to the air meter and the measurement result of the air amount, a column for entering the total container mass M _a including the lid of the air meter and the lower container volume V _a of the air meter is prepared as advance preparation. In addition, a column for entering a measurement mass (air meter + mortar sample) M ₁ and a measurement air amount Am ₁ is provided as a measurement result.

In the column 28 for entering the measurement results and various calculation results for the mortar and fresh concrete, the set volume Vm _{0 of} the mortar in 1 m ^{3 of} concrete, the set value γm ₀ of the unit volume mass of the mortar, and the air amount of the mortar are excluded. A column for entering the measured value γm ₁ of unit volume mass, the set value Wm ₀ of unit water volume of mortar, the error ΔW ′ of unit water volume per 1 m ^{3 of} mortar, the estimated unit water volume Wm of mortar, and the estimated unit water volume W of fresh concrete. Is provided.

Note that ρ _w , ρ _c , ρ _s , ρ _G1 , and ρ _G2 in the above formula are water W ₀ and cement C ₀ , respectively.
, The density of fine aggregate S ₀ and coarse aggregate G1 ₀ , G2 ₀ .

FIG. 3 shows an example of the measurement result. Here, error Δ of unit water volume per 1 m ^{3 of} mortar
W ′ = − 1.4 kg, and the estimated unit water amount of mortar was 283.4 (kg / m ³ ).

The unit water amount (estimated unit water amount) W of fresh concrete is W = Wm × Vm ₀
/1000=283.4×646.1/1000=183.1 (kg / m ³ ).

As described above, in the method for measuring unit water content of fresh concrete according to the present invention, mortar is collected from fresh concrete, and the unit water amount of the mortar is obtained by a unit volume mass method. And the unit water amount of fresh concrete is calculated | required based on the unit water amount of the mortar calculated | required above.

  That is, in the present invention, the unit water amount of mortar not containing coarse aggregate is measured, and the unit water amount of fresh concrete is obtained based on the measured value of the unit water amount of this mortar, thereby eliminating the influence of sampling error of coarse aggregate. it can. Moreover, since it is not necessary to dry the collected mortar, the measurement time can be shortened as compared with the heat drying method. Furthermore, since a dedicated device such as the RI method is not required, the cost can be reduced.

  Therefore, the unit water amount of fresh concrete can be obtained easily, quickly and accurately even at a construction site or the like, and the quality control of the concrete can be appropriately performed.

It is a flowchart which shows the measurement procedure of the unit water amount measuring method of the fresh concrete which concerns on this invention. It is a figure which shows an example of the data sheet used when performing the unit water amount measuring method of the fresh concrete which concerns on this invention. It is a figure which shows the measurement result of the unit water amount of fresh concrete by the unit water amount measuring method of fresh concrete which concerns on this invention.

Explanation of symbols

20 Data sheet 21 Column for entering general information 22 Column for entering unit amount and material density 23 Column for entering oversized and undersized particles of aggregate 24 Column for entering volume reduction amount 25 Column for entering mortar amount 26 Column for entering the target air volume 27 Column for entering items related to the air meter 28 Column for entering measurement results and various calculation results

Claims (2)

Mortar from fresh concrete,
Measure the unit volume mass of the mortar,
Using the measured value of the unit volume mass of the mortar to determine the unit water amount of the mortar by the unit volume mass method,
A unit water amount measurement method for fresh concrete, wherein the unit water amount of the fresh concrete is determined based on the unit water amount of the mortar.   The unit volume mass method obtains a unit water amount of the mortar based on a difference between a measured value of the unit volume mass of the mortar and a set value of the unit volume mass of the mortar. The unit water amount measuring method of fresh concrete as described.

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