Vibro-thermography of calibrated defects in hybrid plates focusing on viscoelastic heat generation

IF 3.7 3区 工程技术 Q1 INSTRUMENTS & INSTRUMENTATION
Xingwang Guo, Liang Zhu
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引用次数: 9

Abstract

ABSTRACT Ultrasound excited vibro-thermography is based on the local heat generation due to the friction between the opposite surfaces of the defect, the plastic deformation around the defect, and/or the viscoelastic loss. This paper presents vibro-thermography applied to hybrid plates containing viscoelastic material when the viscoelastic heat generation mechanism alone is considered. The debonding-like calibrated defects without friction surfaces in the hybrid plate are detected. The dynamic temperature field is obtained by both experiment and numerical simulation. The influence of excitation frequency on the temperature increase over the defects is analysed by modelling the thermo-mechanical coupled field. The results show that the viscoelastic loss of the non-metal material is the leading factor of the local temperature increase over defects; an excitation frequency has its selective heating character to defects; a defect has a so-called defect characteristic frequency which can act as the optimal excitation frequency for this defect to be detected; the defect characteristic frequency is between the two local defect resonance frequencies corresponding to the simply supported boundary and the clamped boundary, respectively.
聚焦于粘弹性热生成的混合板标定缺陷的振动热成像
超声激发振动热成像是基于由于缺陷相对表面之间的摩擦,缺陷周围的塑性变形和/或粘弹性损失而产生的局部热。本文介绍了仅考虑粘弹性产热机理的粘弹性复合材料板的振动热成像技术。检测了混合板中无摩擦表面的类脱粘校正缺陷。通过实验和数值模拟得到了动态温度场。通过建立热-机械耦合场模型,分析了激励频率对缺陷上温升的影响。结果表明:非金属材料的粘弹性损失是局部温度超过缺陷的主要原因;激励频率对缺陷具有选择性加热特性;缺陷有一个所谓的缺陷特征频率,它可以作为该缺陷被检测的最佳激励频率;缺陷特征频率介于简支边界和箝位边界对应的两个局部缺陷共振频率之间。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Quantitative Infrared Thermography Journal
Quantitative Infrared Thermography Journal Physics and Astronomy-Instrumentation
CiteScore
6.80
自引率
12.00%
发文量
17
审稿时长
>12 weeks
期刊介绍: The Quantitative InfraRed Thermography Journal (QIRT) provides a forum for industry and academia to discuss the latest developments of instrumentation, theoretical and experimental practices, data reduction, and image processing related to infrared thermography.
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