JP2012215384A - Pretreatment method in performing evaluation test for regenerated aggregate and testing method for regenerated aggregate - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a pretreatment method which enables the cement components attached to the surface of regenerated aggregate to be efficiently removed in performing ASR (alkali-silica reactivity) evaluation for regenerated aggregate and also prevents the ASR evaluation accuracy from decreasing.SOLUTION: The pretreatment method comprises a cement removal step of immersing the regenerated aggregate in a pretreatment solution composed of a sodium gluconate solution to thereby remove the cement components attached to the surface of regenerated aggregate.

Description

  The present invention is a pretreatment for applying a “aggregate alkali-silica reactivity test method (chemical method)” defined in JIS A 1145 to recycled aggregates collected and manufactured from concrete structures and the like. Regarding the method. The present invention also relates to a recycled aggregate test method in which the above test method is applied to the recycled aggregate treated by the pretreatment method.

  It is anticipated that the amount of concrete lumps generated by crushing concrete structures that have passed their useful lives will not change significantly in the future. For this reason, in order to reduce the environmental load, it is necessary to improve the reuse rate of concrete blocks and reduce the amount of waste.

  At present, the concrete blocks are reused mainly for roadbed materials for paving, and are rarely reused as concrete structures. Therefore, attempts have been made to take out aggregates from concrete blocks and reuse such aggregates (recycled aggregates) as raw materials for concrete.

  The recycled aggregate is subjected to various treatments so as to have a required quality after being taken out from the concrete block. As a result, for example, those having a quality equivalent to natural aggregates such as the regenerated aggregate H defined in JIS, or regenerated aggregates H such as regenerated aggregates M and L obtained by simple processing. Inferior quality is produced.

  By the way, aggregates that have not been evaluated for alkali silica reaction (ASR) may be used for concrete structures formed in the past. For this reason, when reclaimed aggregate is reused as a raw material for concrete, ASR is evaluated for the reclaimed aggregate, and if it is evaluated as harmless, measures against ASR such as mixed cement should be taken. Can be used without As an ASR evaluation method, “Aggregate Alkali Silica Reactivity Test Method (Chemical Method)” defined in JIS A 1145 is generally used (see Non-Patent Document 1). When evaluating a regenerated aggregate using such a test method, the evaluation is usually performed after the regenerated aggregate is immersed in hydrochloric acid and the cement component adhering to the surface of the regenerated aggregate is removed. (See Non-Patent Document 2).

JIS A 1145 “Aggregate Alkali Silica Reactivity Test Method (Chemical Method)” JIS A 5021 “Recycled aggregate H for concrete”

  However, when the pretreatment is performed using hydrochloric acid as described above, the components of the aggregate itself are eluted in the hydrochloric acid, and thus there is a possibility that the ASR cannot be accurately evaluated.

  Therefore, the present invention can effectively remove the cement component adhering to the surface of the regenerated aggregate when the ASR is evaluated for the regenerated aggregate, and the evaluation accuracy of the ASR is reduced. It is an object of the present invention to provide a pretreatment method capable of suppressing the above. It is another object of the present invention to provide a recycled aggregate testing method for performing an ASR evaluation test by performing a pretreatment using such a pretreatment method.

  The pretreatment method according to the present invention is a pretreatment method for performing a test of “an alkali silica reactivity test method for aggregate (chemical method)” defined in JIS A 1145 for a regenerated aggregate, It is characterized by comprising a cement removing step of removing cement components adhering to the surface of the regenerated aggregate by immersing the regenerated aggregate in a pretreatment solution made of a sodium gluconate solution.

  According to such a configuration, the regenerated aggregate is immersed in a pretreatment solution made of a sodium gluconate solution and pretreated, thereby removing the cement component adhering to the surface of the regenerated aggregate and It can suppress that the component of aggregate itself elutes in a pretreatment solution rather than the case where a treatment solution is used. For this reason, when the ASR is evaluated by the above test method, it is possible to suppress the evaluation accuracy from being lowered due to the influence of the pretreatment solution.

  Moreover, it is preferable to provide the heat processing process which heat-processes a recycled aggregate before the said cement removal process. Furthermore, in the cement removing step, it is preferable that the pretreatment solution in which the recycled aggregate is immersed is heated to a predetermined temperature.

  According to such a configuration, by performing the heat treatment step, a difference in thermal strain between the aggregate and the cement component causes a difference in temperature strain between the two, and separation occurs at the interface between the two. When the aggregate is immersed, the pretreatment solution can be infiltrated between the aggregate and the cement component. For this reason, the contact area between the cement component and the pretreatment solution increases, and the elution of the cement component into the pretreatment solution can be performed efficiently. Thereby, the cement component can be effectively removed from the recycled aggregate. Moreover, the reactivity of a cement component and a pre-processing solution can be improved by heating the pre-processing solution in which the reproduction | regeneration aggregate was immersed. Thereby, the cement component can be effectively removed from the recycled aggregate.

  Moreover, it is preferable to repeat the operation of performing the heat treatment step and then performing the cement removal step.

  The method for testing reclaimed aggregate according to the present invention includes a pretreatment step in which pretreatment is performed using any one of the above pretreatment methods, and the reclaimed aggregate treated in the pretreatment step is defined in JIS A 1145. Further, it is characterized in that it is tested by “Aggregate Alkali Silica Reactivity Test Method (Chemical Method)”.

  As described above, according to the present invention, when the ASR is evaluated for the regenerated aggregate, the cement component adhering to the surface of the regenerated aggregate can be effectively removed, and the ASR evaluation accuracy can be removed. Can be suppressed.

Graph showing the quantitative results of the dissolution amount of silica S _C and alkali concentration decrease R _C by JIS method in Examples.

  Hereinafter, an embodiment of the present invention will be described with reference to the drawings.

  The pretreatment method according to the present embodiment is used when an ASR is evaluated on a concrete structure or an aggregate (recycled aggregate) collected from a concrete lump generated by pulverizing the concrete structure. It is used. Specifically, when the ASR of recycled aggregate is evaluated using the “Aggregate Alkali-Silica Reactivity Test Method (Chemical Method)” (hereinafter referred to as JIS method) defined in JIS A 1145, regeneration is performed. This is a method of pre-processing the aggregate.

  As the recycled aggregate, recycled coarse aggregate and recycled fine aggregate can be used. Specifically, the recycled aggregate H is defined in JIS A 5021, and is defined in Annex A of JIS A 5022. The recycled aggregate M or the recycled aggregate L defined in Annex 1 of JIS A 5023 can be used. The recycled aggregate is in a state where the cement component used when forming the concrete structure is adhered to the surface. For this reason, when the ASR is evaluated using the JIS method, it is necessary to remove the cement component from the surface of the recycled aggregate. The pretreatment method according to this embodiment is for removing the cement component from the recycled aggregate.

  The pretreatment method according to this embodiment includes a cement removal step of removing cement components adhering to the surface of the regenerated aggregate by immersing the regenerated aggregate in a pretreatment solution. As the pretreatment solution, a solution comprising a sodium gluconate solution is used. The content of sodium gluconate in the pretreatment solution is preferably about 10 to 20 wt%, and more preferably about 13 to 16 wt%. The volume of the sodium gluconate solution with respect to the mass of the recycled aggregate is preferably 3 L / kg or more, and more preferably 5 L / kg or more.

  In the cement removal step, it is preferable that the pretreatment solution in which the recycled aggregate is immersed is heated to a predetermined temperature. Specifically, it is preferable that the pretreatment solution in a state where the regenerated aggregate is immersed is heated to 50 ° C. or more and 60 ° C. or less. Further, in the cement removal step, it is preferable that the cement component is removed for a predetermined time while shaking the pretreatment solution in which the recycled aggregate is immersed. The time for performing the cement removing step is preferably 1 day or more and 7 days or less.

  Also, depending on the state of the cement component adhering to the recycled aggregate (adhesion amount, etc.), the recycled aggregate is screened, and the cement removal process is performed separately for the recycled aggregate on the sieve and the recycled aggregate under the sieve. You may do it. As a sieve used for sieving, for example, a 1.2 mm one can be used.

  Moreover, the pretreatment method according to the present embodiment may include a heat treatment step of heat treating the recycled aggregate before the cement removal step. The temperature of the heat treatment step is preferably 250 ° C. or higher and 350 ° C. or lower, and more preferably 270 ° C. or higher and 320 ° C. or lower. The time for performing the heat treatment can be appropriately set according to the amount of the regenerated aggregate to be pretreated, but it is preferable to perform the heat treatment for 2 hours or more.

  Moreover, you may make it perform the operation which performs a cement removal process after a heat processing process repeatedly in such a pre-processing method. Specifically, after performing the cement removal process using the regenerated aggregate after the heat treatment process, the regenerated aggregate is taken out from the pretreatment solution and washed. Then, the adhesion state of the cement component on the surface of the recycled aggregate is visually confirmed. If the cement component remains, the heat treatment step and the cement removal step are performed again, and the cement component cannot be visually confirmed. It is preferable to repeat the pretreatment until.

The recycled aggregate processed by the pretreatment method as described above is evaluated for ASR using the JIS method. JIS method for the pretreated recycled aggregate, perform quantification of the dissolved silica amount S _C and alkali concentration decrease R _C, it is intended to evaluate the ASR from the relationship of the values obtained. Specifically, in the regenerated aggregate where the dissolved silica amount S _C is 10 mmol / L or more and the alkali concentration reduction amount R _C is less than 700 mmol / L, the regenerated aggregate satisfying S _C <R _C is: On the contrary, a recycled aggregate satisfying S _C ≧ R _C is determined as “not harmless”. Moreover, fused silica amount S _C is less than 10 mmol / L, and, recycled aggregate alkali concentration decrease R _C is less than 700 mmol / L is determined to be "harmless".

  As described above, according to the pretreatment method according to the present invention, when the ASR is evaluated on the recycled aggregate, the cement component adhering to the surface of the recycled aggregate can be effectively removed. , ASR evaluation accuracy can be prevented from being lowered.

  That is, by reprocessing the reclaimed aggregate by immersing it in a pretreatment solution composed of a sodium gluconate solution, the cement component adhering to the surface of the regenerated aggregate is removed, and a pretreatment solution composed of hydrochloric acid is used. More than the case, it can suppress that the component of aggregate itself elutes in a pretreatment solution. For this reason, when the ASR is evaluated by the above test method, it is possible to suppress the evaluation accuracy from being lowered due to the influence of the pretreatment solution.

  According to such a configuration, when the heat treatment step is performed, a difference in temperature strain occurs between the aggregate and the cement component due to the difference in thermal expansion coefficient, and peeling occurs at the interface between the two. Due to the peeling of the interface, when the recycled aggregate is immersed in the pretreatment solution, the pretreatment solution can be infiltrated between the aggregate and the cement component. For this reason, the contact area between the cement component and the pretreatment solution increases, and the elution of the cement component into the pretreatment solution can be performed efficiently. Thereby, the cement component can be effectively removed from the recycled aggregate. Moreover, the reactivity of a cement component and a pre-processing solution can be improved by heating the pre-processing solution in which the reproduction | regeneration aggregate was immersed. Thereby, the cement component can be effectively removed from the recycled aggregate.

  Examples of the present invention will be described below.

<Example>
1. Pretreatment (1) Heat treatment process Sampled from a concrete structure formed using the same raw aggregate as the raw fine aggregates (before being used for concrete structures) listed in Table 1 below. A heat treatment step was performed on each of the recycled fine aggregates. Specifically, about 5 kg of recycled fine aggregate was placed in a stainless steel container and subjected to heat treatment at 300 ° C. for 2 hours in a heating apparatus. Thereafter, the recycled fine aggregate after the heat treatment was cooled to room temperature.

(2) Cement removal process Recycled fine aggregate obtained in the heat treatment process is equally divided into three containers containing 8.5L of pretreatment solution (15wt% sodium gluconate solution) and recycled. The fine aggregate was immersed in the pretreatment solution. Then, the container containing the regenerated fine aggregate is placed on a vibration device (elution shaking test device MW-YS manufactured by Miyamoto Riken Kogyo Co., Ltd.), and heated so that the temperature in the container becomes 55 ± 5 ° C. It was left for 1 day while shaking (amplitude: 50 mm, frequency: 130 times / min). Thereafter, the recycled fine aggregate was taken out of the container, washed and dried.

2. For each playback fine aggregate after evaluation pretreatment ASR, it was quantified fused silica amount S _C and alkali concentration decrease R _C based on the JIS method. Determination results of the dissolution amount of silica S _C and alkali concentration decrease R _C in each reproduction fine aggregate is as shown in the graph of FIG.

<Comparative example>
Except that a 5 wt% hydrochloric acid solution was used as a pretreatment solution, pretreatment was performed in the same manner as in Examples, and ASR was evaluated using the regenerated fine aggregate after pretreatment. Determination results of the dissolution amount of silica S _C and alkali concentration decrease R _C in each reproduction fine aggregate is as shown in the graph of FIG.

<Reference example>
The amount of dissolved silica S _C and the amount of decrease in alkali concentration R _C based on the JIS method were determined for each raw fine aggregate listed in Table 1 without pretreatment. The quantitative results of the dissolved silica amount S _C and the alkali concentration reduction amount R _C in each raw fine aggregate are as shown in the graph of FIG.

<Summary>
From the graph of FIG. 1, it can be seen that the example is closer to the result of the reference example than the comparative example. It can also be seen that the comparative example is located on the “non-harmful” region side of the example.
That is, it is recognized that the pretreatment using the hydrochloric acid solution causes the dissolved silica amount S _C and the alkali concentration decrease R _C to shift to the “non-hazardous” region side from the original quantitative result. For this reason, in the pretreatment using the hydrochloric acid solution, there is a possibility that the recycled fine aggregate that should be determined as “harmless” is determined as “not harmless”, and the evaluation accuracy of ASR is lowered.
On the other hand, by performing pretreatment using a sodium gluconate solution, an evaluation result equivalent to the case of using the JIS method can be obtained without performing pretreatment on the raw fine aggregate. The evaluation accuracy is higher than when a hydrochloric acid solution is used.

Claims (5)

It is a pretreatment method for performing a test of “an alkali-silica reactivity test method for aggregate (chemical method)” prescribed in JIS A 1145 for recycled aggregate,
A pretreatment method comprising a cement removal step of removing a cement component adhering to the surface of the regenerated aggregate by immersing the regenerated aggregate in a pretreatment solution comprising a sodium gluconate solution.   The pretreatment method according to claim 1, further comprising a heat treatment step of heat treating the recycled aggregate before the cement removing step.   The pretreatment method according to claim 1 or 2, wherein in the cement removing step, the pretreatment solution in which the recycled aggregate is immersed is heated to a predetermined temperature.   The pretreatment method according to claim 2 or 3, wherein an operation of performing the heat treatment step and thereafter performing a cement removal step is repeatedly performed.   5. A pretreatment step of performing pretreatment using the pretreatment method according to claim 1, wherein the recycled aggregate treated in the pretreatment step is a “bone” defined in JIS A 1145 A test method for recycled aggregate, which is characterized in that it is tested by the alkali-silica reactivity test method (chemical method).

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