| 张冰,蔡洋康,张瑛.复合材料结构损伤声发射检测的信息扩充方法*[J].,2024,43(6):1412-1420 |
| 复合材料结构损伤声发射检测的信息扩充方法* |
| Information expansion methods for acoustic emission detection of damage in composite structures |
| 投稿时间:2024-03-01 修订日期:2024-10-28 |
| 中文摘要: |
| 为了研究基于声发射的复合材料结构损伤的定位精度,对经典的三角定位算法进行了研究;在复合材料层合板上布置稀疏传感器阵列,实验研究了全阵元及部分阵元缺失传感阵列的定位精度变化;对不同阵元数的传感阵列的定位结果进行分析,并提出在缺失阵元情况下的边界反射信息补充方案,对阵列进行虚拟扩充后实现损伤定位分析。不同阵元数量的阵列定位实验结果表明:通过混响中边界反射信息的挖掘与补充能够实现缺失阵列在信息不足情况下的精确损伤定位。在总体定位误差中,全阵元阵列的平均定位误差为1.06 cm;缺失单阵元阵列的平均定位误差在1.63~1.93 cm之间;通过边界信息补充后的缺失双阵元阵列的平均定位误差为1.47 cm。该方法实现了在传感阵元数量少于常规定位阵列的情况下的损伤定位,为提高传感器阵列以及定位算法的稳定性提供了思路。 |
| 英文摘要: |
| In order to study the damage location accuracy of composite structures based on acoustic emission, the basic triangulation algorithm is researched and compiled, and sparse sensor array is arranged on the surface of the plate. Then, experimentally investigated changes in location accuracy of full-array and partial elements missing sensing array. Finally, the results of array positioning accuracy with different number of receiving elements are analyzed. A supplementary scheme of reverberation boundary reflection information is proposed in the case of missing elements, and the damage location analysis is realized after the array is expanded. The experimental results of array location with different number of elements show that the accurate damage location of missing array can be realized by mining and supplementing the boundary reflection information in reverberation. In the overall positioning error, the average positioning error of the whole array is 1.06 cm. The average positioning error of the missing single element array ranges from 1.63 cm to 1.93 cm. The average positioning error of missing two-element array supplemented by boundary information is 1.47 cm. The proposed method achieves accurate damage location when the number of sensor arrays is less than that of conventional positioning arrays, which provides a way to improve the stability of sensor arrays and positioning algorithms. |
| DOI:10.11684/j.issn.1000-310X.2024.06.026 |
| 中文关键词: 复合材料 健康监测 声发射 损伤定位 信息扩充 |
| 英文关键词: Composite material Health monitoring Acoustic emission Damage location Information expansion |
| 基金项目:河南省水下智能装备重点实验室开放基金资助项目(KL03A1804) |
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