Numerical investigation of self-focused Lamb waves in anisotropic media

J. Spytek, L. Pieczonka, P. Kijanka, L. Ambrozinski
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Abstract

Ultrasonic arrays are widely used in various fields including non-destructive testing and structural health monitoring (SHM) areas. Their application for inspection of anisotropic plates using guided waves is challenging, due to insufficient knowledge of angle-dependent wave velocity in the medium. Since time-reversal permits waves self-focusing without the knowledge about precise wave speed values, it seems to be a feasible solution for waves-steering in anisotropic media. In this paper performance of decomposition of the time-reversal operator (DORT) algorithm as well as its extended DORT-CWT method were studied on data from numerical simulations. The propagation of the guided ultrasonic waves in an anisotropic carbon fiber reinforced polymer (CFRP) plate was modelled using the local interaction simulation approach. Several application scenarios were investigated including different number and placement of the damage locations. In each case a number of simulations were performed to obtain the inter-element impulse responses for all the assumed transducers. The responses were decomposed to find the phase shifts and amplitudes necessary to focus on the scatterers. Accuracy of the estimated parameters for the DORT and DORT-CWT methods was verified by performing the backpropagation using all emitters in phased array mode. The presented approach produced accurate focusing on particular damage locations.Ultrasonic arrays are widely used in various fields including non-destructive testing and structural health monitoring (SHM) areas. Their application for inspection of anisotropic plates using guided waves is challenging, due to insufficient knowledge of angle-dependent wave velocity in the medium. Since time-reversal permits waves self-focusing without the knowledge about precise wave speed values, it seems to be a feasible solution for waves-steering in anisotropic media. In this paper performance of decomposition of the time-reversal operator (DORT) algorithm as well as its extended DORT-CWT method were studied on data from numerical simulations. The propagation of the guided ultrasonic waves in an anisotropic carbon fiber reinforced polymer (CFRP) plate was modelled using the local interaction simulation approach. Several application scenarios were investigated including different number and placement of the damage locations. In each case a number of simulations were performed to obtain the inter-elem...
各向异性介质中自聚焦Lamb波的数值研究
超声阵列广泛应用于无损检测和结构健康监测等领域。由于对介质中与角度相关的波速了解不足,它们在利用导波检测各向异性板方面的应用具有挑战性。由于时间反转允许波在不知道精确波速值的情况下自聚焦,因此它似乎是各向异性介质中波转向的可行解决方案。本文在数值模拟数据上研究了时间反转算子(DORT)分解算法及其扩展的DORT- cwt方法的性能。采用局部相互作用模拟方法对各向异性碳纤维增强聚合物(CFRP)板中引导超声的传播进行了建模。研究了几种应用场景,包括不同数量和位置的损伤位置。在每种情况下,进行了许多模拟,以获得所有假定换能器的元件间脉冲响应。对响应进行分解,找出聚焦散射体所需的相移和幅值。通过在相控阵模式下使用所有发射源进行反向传播,验证了DORT和DORT- cwt方法估计参数的准确性。所提出的方法可以精确地聚焦于特定的损伤位置。超声阵列广泛应用于无损检测和结构健康监测等领域。由于对介质中与角度相关的波速了解不足,它们在利用导波检测各向异性板方面的应用具有挑战性。由于时间反转允许波在不知道精确波速值的情况下自聚焦,因此它似乎是各向异性介质中波转向的可行解决方案。本文在数值模拟数据上研究了时间反转算子(DORT)分解算法及其扩展的DORT- cwt方法的性能。采用局部相互作用模拟方法对各向异性碳纤维增强聚合物(CFRP)板中引导超声的传播进行了建模。研究了几种应用场景,包括不同数量和位置的损伤位置。在每种情况下,都进行了多次模拟,以获得元素间…
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