Smart non-destractive test of a concrete wall using a hammer

Atsushi Ito, Masafumi Koike, Katsuhiko Hibino
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Abstract

Large concrete structures such as buildings, bridges, and tunnels are aging. In Japan and many other countries, those built during economic reconstruction after World War II are about 60 to 70 years old, and flacking and other problems are becoming more noticeable. Periodic inspections were made mandatory by government and ministerial ordinance during the 2013-2014 fiscal year, and inspections based on the new standards have just begun. There are various methods to check the soundness of concrete, but the hammering test is widely used because it does not require special equipment. However, long experience is required to master the hammering test. Therefore, mechanization is desired. Although the difference between the sound of a defective part and a normal part is very small, we have shown that neural network is useful in our research. To use this technology in the actual field, it is necessary to meet the forms of concrete structures in various conditions. For example, flacking in concrete exists at various depths, and it is impossible to learn about flacking in all cases. This paper presents the results of a study of the possibility of finding flacking at different depths with a single inspection learning model and an idea to increase the accuracy of a learning model when we use a rolling hammer.
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用锤子对混凝土墙进行智能无损检测
建筑物、桥梁和隧道等大型混凝土结构正在老化。在日本和其他许多国家,二战后经济重建时期建造的混凝土结构已有 60 到 70 年的历史,剥落等问题日益明显。2013-2014 财年,政府和部级法令规定必须进行定期检查,根据新标准进行的检查刚刚开始。检查混凝土完好性的方法有很多种,但锤击试验因不需要特殊设备而被广泛使用。但是,要掌握锤击试验,需要长期的经验积累。因此,人们希望采用机械化方法。虽然缺陷部件和正常部件的声音差别很小,但我们的研究表明神经网络是有用的。要将这项技术应用于实际领域,就必须满足各种条件下的混凝土结构形式。例如,混凝土的剥落存在于不同深度,不可能了解所有情况下的剥落。本文介绍了使用单一检测学习模型发现不同深度剥落的可能性研究结果,以及在使用滚动锤时提高学习模型准确性的想法。
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来源期刊
CiteScore
1.50
自引率
14.30%
发文量
0
审稿时长
12 weeks
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