基于压电传感技术的木结构连接节点损伤识别

张全景; 韩芳; 陈天驰

doi:10.12326/j.2096-9694.2021023

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基于压电传感技术的木结构连接节点损伤识别
Damage Detection for Timber Structure Joints Based on Piezoelectric Sensing Technology
1.武汉科技大学理学院，湖北武汉 430081
2.冶金工业过程系统科学湖北省重点实验室，湖北武汉 430081
2022年36卷第1期页码：63-67
DOI： 10.12326/j.2096-9694.2021023

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张全景,韩芳,陈天驰.基于压电传感技术的木结构连接节点损伤识别[J].木材科学与技术,2022,36(01):63-67.

ZHANG Quan-jing,HAN Fang,CHEN Tian-chi.Damage Detection for Timber Structure Joints Based on Piezoelectric Sensing Technology[J].Chinese Journal of Wood Science and Technology,2022,36(01):63-67.
张全景,韩芳,陈天驰.基于压电传感技术的木结构连接节点损伤识别[J].木材科学与技术,2022,36(01):63-67. DOI： 10.12326/j.2096-9694.2021023.

ZHANG Quan-jing,HAN Fang,CHEN Tian-chi.Damage Detection for Timber Structure Joints Based on Piezoelectric Sensing Technology[J].Chinese Journal of Wood Science and Technology,2022,36(01):63-67. DOI： 10.12326/j.2096-9694.2021023.

摘要

针对木结构中常见的榫卯连接与螺栓连接节点，利用压电传感技术对其进行健康工况和损伤工况的数值模拟研究，其中榫卯连接考虑榫头的平动、转动、缺损工况，螺栓连接考虑预紧力松动工况；对压电片所接收到的信号进行以小波包分解，并以各频段信号能量的总和作为能量指标，对不同损伤工况进行定量评估，最后以螺栓连接为例进行实验验证。数值计算和实验结果均表明，压电片所接收到的信号能量随损伤程度的不断增加而减小，利用压电传感技术可以有效识别不同类型连接节点处不同程度的损伤，该结论可为工程实际提供参考。

Abstract

The digital simulations for intact and failure conditions of common timber structure joints of tenon-mortise joints and bolted joints were conducted based on the piezoelectric sensing technology. Specifically, the horizontal movement, rotation, and defects of tenons were considered as the failure load cases for tenon-mortise joints, while the relaxation of pre-tightening force was considered as the failure load case for the bolted joints. Then the failure index, which is the sum of signal energy for different frequency bands decomposed based on wavelet packet analysis, was used to quantitatively evaluate the degree of damage severity. Finally, the experiment of bolted joints was implemented to verify the digitalsimulation results. Both of the digital and the experiment results indicate that the signal energy received by piezoelectric plates gradually decreases with the increase of damage severity. The piezoelectric sensing technology can efficiently detect the local damage at the timber joints, which provide a reference for the engineering practice.

关键词

压电传感技术木结构连接节点损伤识别小波包能量

Keywords

piezoelectric sensing technologytimber structure jointsdamage detectionwavelet packet energy

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