Controlled Cracking for Industrial Concrete Waste by Steam Pressure Cracking Agent

International journal of the Society of Materials Engineering for Resources Pub Date : 2020-06-01 DOI:10.5188/ijsmer.24.18

O. Kamiya, Kaito Suzuki, Etsushi Okuyama, N. Kojima, S. Ito, Mamoru Takahashi, Kenji Murata, Takashi Kazumi, Arata Maisawa, M. Nakatsu, H. Mizuma, H. Sodeyama, Y. Iwama, Nobuyasu Furuuchi, Keizo Shinya

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引用次数: 4

Abstract

We propose a quick and controlled cracking method for industrial ceramic waste by applying a steam pressure cracking (SPC) agent. The agent is a non-explosive and low-vibration-type chemical, which was developed by one of the authors of this study. We prepared a concrete specimen that had a diameter and cylinder height of 150 mm. Several grams of the agent cracked the specimen. We could control the cracking better in water than air when the air and water conditions were compared. When tested in water, the agent was placed in the hole of the concrete specimen and ignited, and the specimen could be split into two or three pieces of the same size. However, using another SPC agent that was explosive, the concrete specimen was broken into small fragments and size of the concrete pieces could not be controlled. The crushing mechanism was different for the two cases. The explosive crushed the concrete mainly through elastic shock waves. However, the steam pressure cracking agent breaks the specimen using the steam pressure and shock waves. We demonstrated that the cracking can also be controlled using guide holes. This steam pressure method can be applied to industrial waste as a safe and well-controlled method.

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蒸汽压裂剂对工业混凝土废料的控制开裂

提出了一种应用蒸汽压力裂解(SPC)剂对工业陶瓷废料进行快速可控裂解的方法。该药剂是由本研究的一位作者开发的一种非爆炸性和低振动型化学品。我们准备了一个直径和筒高为150mm的混凝土试件。几克药剂使标本破裂。在空气条件和水条件的比较中，水条件下的裂缝控制效果优于空气条件下的裂缝控制。在水中试验时，将药剂置于混凝土试件的孔洞中并点燃，试件可分裂成大小相同的两块或三块。然而，使用另一种具有爆炸性的SPC剂，混凝土试样被打碎成小块，混凝土块的大小无法控制。两种情况的破碎机制不同。炸药主要通过弹性冲击波对混凝土进行粉碎。而蒸汽压力破裂剂是利用蒸汽压力和冲击波使试样破裂的。我们证明了裂缝也可以用导孔来控制。蒸汽加压法是一种安全、可控的工业废水处理方法。

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来源期刊

International journal of the Society of Materials Engineering for Resources

CiteScore

0.10

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0.00%

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