Damage Detection for CFRP Based on Planar Electrical Capacitance Tomography

Q2 Engineering
W. Fan, Chi Wang
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引用次数: 3

Abstract

Due to the widespread use of carbon fiber reinforced polymer/plastic (CFRP), the nondestructive structural health monitoring for CFRP is playing an increasingly essential role. As a nonradiative, noninvasive and nondestructive detection technique, planar electrical capacitance tomography (PECT) electrodes array is employed in this paper to reconstruct the damage image according to the calculated dielectric constant changes. The shape and duty ratio of PECT electrodes are optimized according to the relations between sensitivity distribution and the dielectric constant of different anisotropic degrees. The sensitivity matrix of optimized PECT sensor is more uniform as the result shows, because the sensitivity of insensitivity area can be increased by adding rotation of optimized electrodes. The reconstructed image qualities due to different PECT arrays and different damage locations are investigated at last. The simulation results indicate that: PECT can be used to detect the surface damage of CFRP; the sensitivity matrix of PECT for CFRP is highly relevant with the degree of anisotropic dielectric constant; the rotatable PECT sensor with rotation has better performance in uniformity of sensitivity; for different damage locations, the rotatable sensor with rotation has better image quality in most cases.
基于平面电容成像的CFRP损伤检测
随着碳纤维增强聚合物/塑料(CFRP)的广泛应用,CFRP结构的无损健康监测发挥着越来越重要的作用。平面电容层析成像(PECT)电极阵列是一种非辐射、无创、无损的检测技术,根据计算得到的介电常数变化,对损伤图像进行重构。根据灵敏度分布与不同各向异性介电常数的关系,优化了PECT电极的形状和占空比。结果表明,优化后的PECT传感器的灵敏度矩阵更加均匀,因为通过增加优化电极的旋转可以提高不敏感区域的灵敏度。最后研究了不同spect阵列和不同损伤位置下的重建图像质量。仿真结果表明:PECT可以用于CFRP的表面损伤检测;CFRP的PECT灵敏度矩阵与介电常数的各向异性程度高度相关;旋转的可旋转PECT传感器在灵敏度均匀性方面表现较好;对于不同的损伤位置,带旋转的可旋转传感器在大多数情况下具有更好的图像质量。
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来源期刊
SDHM Structural Durability and Health Monitoring
SDHM Structural Durability and Health Monitoring Engineering-Building and Construction
CiteScore
2.40
自引率
0.00%
发文量
29
期刊介绍: In order to maintain a reasonable cost for large scale structures such as airframes, offshore structures, nuclear plants etc., it is generally accepted that improved methods for structural integrity and durability assessment are required. Structural Health Monitoring (SHM) had emerged as an active area of research for fatigue life and damage accumulation prognostics. This is important for design and maintains of new and ageing structures.
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