JP2004250328A - Hardening prevention method and hardening preventive for cement - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a hardening prevention method for cement whereby cement containing water is prevented from hardening, while being permitted to coagulate, and aggregate is taken out of surplus ready-mixed concrete and reused; and to provide a hardening preventive therefor. <P>SOLUTION: The method is characterized by that a specified amount of citric acid is mixed into cement containing water to prevent the cement from hardening, while permitting its coagulation. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

  The present invention relates to a method for preventing hardening of concrete or the like that is no longer needed at a construction site using concrete, and to a hardening prevention used in the method.

  Conventionally, ready-mixed concrete that is no longer needed at construction sites that use concrete is taken directly to the ready-mixed concrete manufacturer using a concrete mixer truck, and the cement component in the ready-mixed concrete is separated from aggregate sand and gravel. Reused or discarded.

  In order to separate the cement component in the ready-mixed concrete from the aggregate, expensive and large-scale equipment and a large amount of water are required, so that small-scale ready-mixed concrete manufacturers cannot withstand the capital investment and take over The hardened concrete was once hardened, crushed with a rock drill, etc., and requested to be disposed of by an industrial waste disposal contractor.

  Ready-mixed concrete generally starts to harden in 2 to 5 hours, and hardens to a predetermined hardness (about 90%) in 4 weeks. Generally, those that do not reach the predetermined hardness in these 4 weeks are " Does not cure ".

  The amount of unnecessary ready-mixed concrete generally amounts to 1% to 3% of the supplied ready-mixed concrete, and the amount thereof is substantially enormous.

  Also, the setting of the ready-mixed concrete is delayed by delaying the hardening of the ready-mixed concrete (one or two days) in relation to the work schedule, or the hardening retarder or the post-delay hardening agent is used to adjust the time until washing. Reusing methods have already been proposed (JP-A-10-53444, JP-A-11-199288, and JP-A-11-199288).

Problems to be solved by the invention

  As mentioned above, small-scale ready-mixed concrete manufacturers once hardened the ready-mixed concrete outdoors, crushed it with a rock drill, etc., and asked the industrial waste disposal company for disposal. Crushing the hardened concrete not only required a great deal of effort, but also produced unbearable noise and contributed to environmental destruction.

  Further, even if the hardened concrete is crushed and the aggregate (crushed stone, pebble, sand, etc.) is taken out and reused, the hardened cement adheres to the surface of the aggregate, and new aggregate is again added to the aggregate. Even if the cement is injected, the hardened cement is damaged, and the adhesive strength of the new cement is reduced and the cement cannot be put to practical use.

  Therefore, it was impossible to reuse resources except for extremely limited uses, and it was virtually impossible to reuse resources.However, at present, it is becoming difficult to obtain virgin aggregates, and resource recycling has become difficult. It is an urgent issue.

  In addition, requesting disposal from an industrial waste disposal company requires considerable costs, which has put pressure on the management of ready-mixed concrete manufacturers that have little profit.

  Furthermore, in the case where water is washed to separate the cement component in the ready-mixed concrete from the aggregate, a large amount of water is required, which may lead to waste of water resources. It was also necessary to perform a neutralization treatment using a wetting agent.

  In addition, although the setting retarder delays the setting of the cement, the purpose cannot be achieved unless the cement is completely hardened in the end, and if the cement does not completely harden, a part of the building The resulting concrete becomes fragile and dangerous, making it unusable.

  The present invention has been made in view of the problems of the related art, and solidifies without hardening a cement containing moisture, that is, ready-mixed concrete, and does not inactivate the cement without washing with water as in the above-described related art. And aggregates (crushed stones, pebbles, sand, etc.) can be very easily taken out and reused.

  As described above, various types of setting retarders are well-known and may be misunderstood at first glance similar to the present invention, but all of these setting retarders ultimately completely remove cement. In order to harden, the cement is not inactivated (if it is inactivated, it does not harden and the cement itself cannot be reused), and is used to delay the hardening time. It is fundamentally different from inactivated and not finally cured.

Means for solving the problem

  The first invention is characterized in that a predetermined amount of citric acid for preventing the hardening of the cement is added to the cement containing water, and the hardening of the cement is allowed but the hardening is prevented. This is a method for inhibiting the hardening of cement.

  In the present invention, a predetermined amount of citric acid for inhibiting the hardening of the cement is added to the cement containing moisture, and the cement is solidified because the cement is allowed to coagulate and the hardening is prevented. Is also in a fragile state, and can be easily crushed.

  Also, when poured into ready-mixed concrete, the solidified cement adhering to the surface of the aggregate is easily peeled off without washing with water, and the aggregate can be reused in the same manner as the virgin aggregate. .

  In the present invention and the following invention, "solidification" refers to, for example, a state in which the cement containing water is poured into a predetermined mold and moisture is evaporated after 28 days, and the cement is removed even if the mold is removed. Temporarily maintaining the shape of the formwork, which is different from “hardening” in that cement is inactivated but does not develop strength, and even if it is subjected to minute external forces (eg, human It means a state where even a fingertip collapses easily.

The term “hardening” means that after 28 days, a predetermined strength is reached (for example, in the case of concrete with a nominal strength of 21, the strength becomes 21 N / cm ² , etc.), which means that hardening is prevented. Means to prevent reaching a predetermined hardness after 28 days.

  The second invention is based on the first invention, and is a method for inhibiting hardening, characterized by adding 8 g or more of anhydrous citric acid per 1 kg of cement.

  In the case of ordinary ordinary Portland cement, if 5 g or more of anhydrous citric acid is added per 1 kg of the cement, solidification is prevented, but hardening is prevented. However, it is considered that it changes depending on the quality of cement. Curing is more reliably prevented.

  A second invention is a method for preventing hardening of cement, which is intended to prevent hardening of cement contained in ready-mixed concrete.

  In the present invention, the hardening of the cement contained in the ready-mixed concrete is prevented, so that the solidified concrete can be easily pulverized.

  In addition, it can be recycled as a new aggregate of concrete.

  A third invention is a hardening inhibitor for cement containing citric acid as a main component, which is put into a cement containing moisture and allows solidification of the cement but prevents hardening.

  In the present invention, a predetermined amount of citric acid for preventing the hardening of the cement is added to the cement containing water, and the hardening is prevented while allowing the solidification of the cement, so that the cement is solidified. Also becomes brittle and can be easily crushed.

  Moreover, when it is put into ready-mixed concrete, it can be reused like new virgin aggregate.

  The fourth invention is based on any one of the eighth to eleventh inventions, and is a cement hardening inhibitor or a hardening inhibitor kit for preventing hardening of cement contained in ready-mixed concrete. .

  In the present invention, the hardening of the cement contained in the ready-mixed concrete is prevented, so that the solidified concrete can be easily pulverized.

  Further, the solidified cement adhered to the surface of the concrete aggregate is easily peeled and removed, and the aggregate can be recycled.

  In the embodiment of the present invention, citric anhydride is mainly used as a hardening inhibitor for cement.

  It should be noted that citric anhydride is stored so that a predetermined amount is treated as one unit, and at the same time, when another agent that activates citric anhydride more (for example, synthetic smectite) is added, citric acid and the other agent are added. It is prepared as a kit so as to have a certain ratio.

  In the case of a cement setting inhibitor kit, the citric acid and the synthetic smectite may be contained in separate containers, or may be mixed in a predetermined mixture in some cases.

The composition in the case of producing 30 liters of ready-mixed concrete with ordinary Portland cement (N), nominal strength 18 N / cm ² , slump 18 cm, coarse aggregate maximum dimension 20 mm, air volume 4.5%, is as follows.

8.64 kg of cement
5.88 kg of water
16.05 kg of sea sand
8.76 kg of crushed sand
Gravel (size 6) 10.98 kg
Gravel (size 5) 16.47 kg
AE water reducing agent 0.086kg
* The size of gravel No. 6 is 5 to 10 mm (the same applies hereinafter)
No. 5 gravel has a size of 10 to 20 mm (the same applies hereinafter)

  The mixture was kneaded for 90 seconds in a concrete mixer and then left for 1 hour. 130 g of citric anhydride (15 g of citric anhydride per 1 kg of cement) as a hardening inhibitor was dissolved in 400 g of water, and the mixture was mixed with the ready-mixed concrete. , And kneaded again for 90 seconds, and then left at a predetermined place.

  Then, solidification starts on the fifth day, and after 28 days, the concrete (cement) solidifies but does not harden, and is in a state in which pulverization can be easily performed.

  Further, even when left for 28 days or more, the concrete (cement) solidifies but does not harden, and can be easily crushed by the force of a human fingertip.

  Since the hardened concrete is easily pulverized, there is no problem even if aggregates such as crushed stones are taken out therefrom and used as a new ready-mixed concrete material.

The composition in the case of producing 30 liters of ready-mixed concrete with ordinary Portland cement (N), nominal strength 21 N / cm ² , slump 18 cm, coarse aggregate maximum size 20 mm, air volume 4.5%, is as follows.

9.30 kg of cement
5.85 kg of water
15.75 kg of sea sand
8.58 kg of crushed sand
Gravel (size 6) 10.98 kg
Gravel (size 5) 16.47 kg
AE water reducing agent 0.093kg

  Then, the mixture was kneaded with a mixer for 90 seconds and then left for 1 hour, and 186 g of citric anhydride (20 g of citric anhydride per kg of cement) as a hardening inhibitor dissolved in 400 g of water was added to the ready-mixed concrete. The mixture was charged, kneaded again for 90 seconds, and left at a predetermined place.

  Then, solidification starts on the fifth day, and after 28 days, the concrete (cement) solidifies but does not harden, and is in a state in which pulverization can be easily performed.

  Further, even when left for 28 days or more, the concrete (cement) solidifies but does not harden, and can be easily crushed by the force of a human fingertip.

  Since the hardened concrete is easily pulverized, there is no problem even if aggregates such as crushed stones are taken out therefrom and used as a new ready-mixed concrete material.

The composition in the case of producing 30 liters of ready-mixed concrete with ordinary Portland cement (N), nominal strength 21 N / cm ² , slump 18 cm, coarse aggregate maximum size 20 mm, air volume 4.5%, is as follows.

9.30 kg of cement
5.85 kg of water
15.75 kg of sea sand
8.58 kg of crushed sand
Gravel (size 6) 10.98 kg
Gravel (size 5) 16.47 kg
AE water reducing agent 0.093kg

  The mixture was kneaded with a mixer for 90 seconds and left to stand for 1 hour, after which the mixture was allowed to stand for 1 hour, and 93 g of anhydrous citric acid (10 g of anhydrous citric acid per 1 kg of cement) as a hardening inhibitor was added. A solution prepared by dissolving 5 g of a synthetic smectite powder as a drug in 400 g of water was put into the ready-mixed concrete, kneaded again for 90 seconds, and left at a predetermined place.

  Then, solidification starts on the fifth day, and after 28 days, the concrete (cement) solidifies but does not harden, and is in a state in which the pulverization can be easily performed.

  Moreover, even if left for a period of 28 days or more, the concrete (cement) solidifies but does not harden, and can be easily crushed by the force of a human fingertip.

  Since the hardened concrete is easily pulverized, there is no problem even if aggregates such as crushed stones are taken out therefrom and used as a new ready-mixed concrete material.

The composition in the case of producing 30 liters of ready-mixed concrete with ordinary Portland cement (N), nominal strength 21 N / cm ² , slump 18 cm, coarse aggregate maximum size 20 mm, air volume 4.5%, is as follows.

9.30 kg of cement
5.85 kg of water
15.75 kg of sea sand
8.58 kg of crushed sand
Gravel (size 6) 10.98 kg
Gravel (size 5) 16.47 kg
AE water reducing agent 0.093kg

  The mixture was kneaded with a mixer for 90 seconds and left to stand for 1 hour, after which the mixture was allowed to stand for 1 hour, and 93 g of anhydrous citric acid (10 g of anhydrous citric acid per 1 kg of cement) as a hardening inhibitor was added. A solution prepared by dissolving 2 g of a synthetic smectite powder as a drug in 400 g of water was put into the ready-mixed concrete, kneaded again for 90 seconds, and left at a predetermined place.

  Then, solidification starts on the fifth day, and after 28 days, the concrete (cement) solidifies but does not harden, and is in a state in which the pulverization can be easily performed.

  Further, even when left for 28 days or more, the concrete (cement) solidifies but does not harden, and can be easily crushed by the force of a human fingertip.

  Since the hardened concrete is easily pulverized, there is no problem even if aggregates such as crushed stones are taken out therefrom and used as a new ready-mixed concrete material.

The composition in the case of producing 30 liters of ready-mixed concrete with ordinary Portland cement (N), nominal strength 21 N / cm ² , slump 18 cm, coarse aggregate maximum size 20 mm, air volume 4.5%, is as follows.

9.30 kg of cement
5.85 kg of water
15.75 kg of sea sand
8.58 kg of crushed sand
Gravel (size 6) 10.98 kg
Gravel (size 5) 16.47 kg
AE water reducing agent 0.093kg

  The mixture was kneaded with a mixer for 90 seconds and left to stand for 1 hour. Then, 74 g of citric anhydride as a hardening inhibitor (8 g of citric anhydride per kg of cement) was added, and the citric anhydride was further activated. A solution prepared by dissolving 5 g of a synthetic smectite powder as the agent in 400 g of water was charged into the ready-mixed concrete, kneaded again for 90 seconds, and left at a predetermined place.

  Then, solidification starts on the fifth day, and after 28 days, the concrete (cement) solidifies but does not harden, and is in a state in which the pulverization can be easily performed.

  Further, even when left for 28 days or more, the concrete (cement) solidifies but does not harden, and can be easily crushed by the force of a human fingertip.

  Since the hardened concrete is easily pulverized, there is no problem even if aggregates such as crushed stones are taken out therefrom and used as a new ready-mixed concrete material.

The composition in the case of producing 30 liters of ready-mixed concrete with ordinary Portland cement (N), nominal strength 21 N / cm ² , slump 18 cm, coarse aggregate maximum size 20 mm, air volume 4.5%, is as follows.

9.30 kg of cement
5.85 kg of water
15.75 kg of sea sand
8.58 kg of crushed sand
Gravel (size 6) 10.98 kg
Gravel (size 5) 16.47 kg
AE water reducing agent 0.093kg

  The mixture was kneaded for 90 seconds with a mixer and left for 1 hour, and then left for 1 hour to obtain 58 g of citric anhydride as a hardening inhibitor (6 g of citric anhydride per kg of cement) and to further activate citric anhydride. A solution prepared by dissolving 2 g of synthetic smectite powder as the agent in 400 g of water was put into the ready-mixed concrete, kneaded again for 90 seconds, and left at a predetermined place.

  Then, solidification starts on the fifth day, and after 28 days, the concrete (cement) solidifies but does not harden, and is in a state in which the pulverization can be easily performed.

  Further, even when left for 28 days or more, the concrete (cement) solidifies but does not harden, and can be easily crushed by the force of a human fingertip.

  Since the hardened concrete is easily pulverized, there is no problem even if aggregates such as crushed stones are taken out therefrom and used as a new ready-mixed concrete material.

The composition in the case of producing 30 liters of ready-mixed concrete with ordinary Portland cement (N), nominal strength 21 N / cm ² , slump 18 cm, coarse aggregate maximum size 20 mm, air volume 4.5%, is as follows.

9.30 kg of cement
5.85 kg of water
15.75 kg of sea sand
8.58 kg of crushed sand
Gravel (size 6) 10.98 kg
Gravel (size 5) 16.47 kg
AE water reducing agent 0.093kg

  The mixture was kneaded with a mixer for 90 seconds and left to stand for 1 hour. Then, 37 g of citric anhydride as a hardening inhibitor (4 g of citric anhydride per kg of cement) was added, and the citric anhydride was further activated. A solution prepared by dissolving 2 g of synthetic smectite powder as the agent in 400 g of water was put into the ready-mixed concrete, kneaded again for 90 seconds, and left at a predetermined place.

  In this example, it was found that the concrete hardened completely by 28 days and could not be easily crushed, probably because the amount of citric anhydride added was insufficient.

The invention's effect

  In the first invention, a predetermined amount of citric acid is added to the cement containing water to prevent the hardening of the cement, and the solidification of the cement is allowed but the hardening is prevented. However, since it becomes brittle, it can be easily crushed.

  Therefore, when put into ready-mixed concrete, the above-mentioned aggregate can be reused in the same manner as the virgin aggregate, and this effect is enormous these days when resources are being depleted on a global scale.

In addition, it is not necessary to crush with a rock drill or the like, so that not only a large amount of labor is not required, but also unbearable noise is not generated, and the environment is friendly.
Further, since there is no need to wash with water, a large-scale apparatus, water and a neutralizing agent are not required, so that it is economical and friendly to the global environment.

  In the second invention, in the case of a general ordinary Portland cement, when 8 g or more of anhydrous citric acid is added per kg of the cement, a desired effect is exhibited with a small amount of citric acid, and it is economically inexpensive. Become.

  In the third aspect of the invention, the hardening of the cement contained in the ready-mixed concrete is prevented, so that the solidified concrete can be easily pulverized.

  Moreover, it becomes possible to recycle concrete as a new aggregate.

  In the fourth invention, a predetermined amount of citric acid for preventing the hardening of the cement is added to the cement containing water, and the hardening is prevented while allowing the solidification of the cement. However, it becomes brittle and can be easily crushed.

  Therefore, when put into ready-mixed concrete, the aggregate can be reused in the same manner as the virgin aggregate, and this effect is enormous these days, as resources are being depleted on a global scale.

  In addition, it is not necessary to crush with a rock drill or the like, so that not only a large amount of labor is not required, but also unbearable noise is not generated, and the environment is friendly.

Claims (4)

A method for preventing hardening of cement, comprising adding water and a predetermined amount of citric acid for preventing hardening of the cement to the cement, thereby allowing solidification of the cement but preventing hardening. 2. The method for preventing hardening of cement according to claim 1, wherein 8 g or more of anhydrous citric acid is added per kg of cement. The method for preventing hardening of cement according to claim 1 or 2, wherein hardening of cement contained in the ready-mixed concrete is prevented. A hardening inhibitor for cement containing citric acid as a main component, which is introduced into a cement containing moisture and allows solidification of the cement but prevents hardening.