利用稀疏传感器网络进行无基线损伤成像的宽带非线性延迟与和(NL-DAS)

IF 7.9 1区 工程技术 Q1 ENGINEERING, MECHANICAL
Yusheng Ma , Saeid Hedayatrasa , Adil Han Orta , Koen Van Den Abeele , Mathias Kersemans
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引用次数: 0

摘要

延迟与和(DAS)方法是稀疏阵列导波成像中一种著名的损伤成像技术。然而,DAS 方法需要事先了解稳定的基线状态,这使得它在不同的操作或环境条件下(如温度和湿度)以及改变的实验设置(如传感器的粘合质量下降)下无法发挥作用。本文提出了一种非线性延迟与和(NL-DAS)方法,它不需要事先了解基线状态,而是利用非线性波/缺陷相互作用的存在。向稀疏传感器阵列提供相对高功率的宽带正弦扫频信号,以激活多种非线性波/缺陷相互作用。对响应信号进行时频滤波后,就能隔离由损伤引起的宽带非线性响应。分离出的宽带非线性响应信号随后被分解成一系列窄带音爆响应,并从中构建出一组损伤图。为了提高所构建的损伤图的质量,我们提出了一个自动框架,用于获取与频率相关的方向群速度,而无需事先了解材料特性。最后,将生成的一组损伤图融合为一个单一的宽带 NL-DAS 损伤图。拟议的宽带 NL-DAS 方法在三维有限元方法生成的模拟数据集上进行了演示,该模拟数据集代表了含有分层缺陷的交叉层碳纤维增强聚合物(CFRP)。研究了不同测试条件下的损伤成像性能,包括 (i) 信噪比、(ii) 传感器数量和 (iii) 激励带宽。实验验证在一块几乎看不出撞击损伤的 CFRP 板和一个加强筋脱粘的 CFRP A320 部件上进行了说明。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Broadband nonlinear delay and sum (NL-DAS) for baseline-free damage imaging using a sparse sensor network
The Delay and Sum (DAS) method is a well-known damage imaging technique in sparse array guided wave imaging. However, the DAS method requires prior knowledge on the stable baseline state, which makes it ineffective under different operational or environmental conditions, e.g. temperature and moisture, and altered experimental settings, e.g. degraded bonding quality of sensors.
This paper proposes a Nonlinear Delay and Sum (NL-DAS) method which does not require prior knowledge about the baseline state, but instead exploits the presence of nonlinear wave/defect interactions. Relatively high-power broadband sweep sine signals are supplied to a sparse sensor array to activate a multitude of nonlinear wave/defect interactions. Application of time–frequency filtering to the response signals allows the isolation of damage-induced broadband nonlinear responses. The isolated broadband nonlinear response signals are subsequently decomposed into a series of narrowband tone burst responses from which a set of damage maps are constructed. To improve the quality of the constructed damage maps, an automated framework is proposed to obtain the frequency-dependent directional group velocities without requiring prior knowledge on material properties. Finally, the resulting set of damage maps is fused into a single broadband NL-DAS damage map.
The proposed broadband NL-DAS approach is demonstrated on a simulation dataset, generated with 3D Finite Element method, which is representative for a cross-ply carbon fiber reinforced polymer (CFRP) containing a delamination defect. The damage imaging performance is studied for different test conditions in terms of (i) signal-to-noise ratio, (ii) number of sensors and (iii) excitation bandwidth. Experimental validation is illustrated on a CFRP plate containing a barely visible impact damage, and on a CFRP A320 component with a disbond at one of the stiffeners.
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来源期刊
Mechanical Systems and Signal Processing
Mechanical Systems and Signal Processing 工程技术-工程:机械
CiteScore
14.80
自引率
13.10%
发文量
1183
审稿时长
5.4 months
期刊介绍: Journal Name: Mechanical Systems and Signal Processing (MSSP) Interdisciplinary Focus: Mechanical, Aerospace, and Civil Engineering Purpose:Reporting scientific advancements of the highest quality Arising from new techniques in sensing, instrumentation, signal processing, modelling, and control of dynamic systems
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