Optimization of Electrode Distribution for Detecting Defects in Electrical Resistivity of Embedded Electrode Arrays in Cement-Based Materials

IF 2.2 Q3 ENGINEERING, ELECTRICAL & ELECTRONIC IEEE Sensors Letters Pub Date : 2024-09-10 DOI:10.1109/LSENS.2024.3456905
Songmao Yang;Lin Chi;Qianrui Zhang;Qi Liang;Shuang Lu;Yuhao Zhang
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Abstract

Defects in the internal structure of cement-based materials can be identified through the electrical resistivity of cement-based materials. This letter focuses on detecting defects using an electrode array with optimized distribution. The defects were imaged and analyzed by demonstrating the effectiveness of this detection method. Based on the results of resistivity measurements with different main electrode spacing and auxiliary electrode positions, the optimal electrode distribution was determined to be 150 mm for the main electrode spacing and 5 mm for the auxiliary electrode from the edge of the test block. Defects were successfully detected using the electrode array with optimized distribution; the imaging results can accurately show the location of the defect and can initially reflect the shape of the defect. Therefore, this optimized electrode array makes it possible to detect defects through resistivity measurements of the cement-based materials, which provides us a new solution to the application of the optimized electrode array for the detection of cement paste or concrete defects in the practical engineering project.
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优化电极分布以检测水泥基材料中嵌入电极阵列的电阻率缺陷
水泥基材料内部结构的缺陷可通过水泥基材料的电阻率来识别。这封信的重点是使用优化分布的电极阵列检测缺陷。通过对缺陷进行成像和分析,证明了这种检测方法的有效性。根据不同主电极间距和辅助电极位置的电阻率测量结果,确定最佳电极分布为:主电极间距为 150 毫米,辅助电极距离试块边缘 5 毫米。使用优化分布的电极阵列成功检测到了缺陷;成像结果能准确显示缺陷的位置,并能初步反映缺陷的形状。因此,该优化电极阵列使通过测量水泥基材料的电阻率来检测缺陷成为可能,这为我们在实际工程项目中应用优化电极阵列检测水泥浆或混凝土缺陷提供了新的解决方案。
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来源期刊
IEEE Sensors Letters
IEEE Sensors Letters Engineering-Electrical and Electronic Engineering
CiteScore
3.50
自引率
7.10%
发文量
194
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