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超声界面波在充液双金属复合管道中的传播特性分析
引用本文:孔令天,李兵,张云飞,李明航,王家琪. 超声界面波在充液双金属复合管道中的传播特性分析[J]. 科学技术与工程, 2021, 21(9): 3475-3480. DOI: 10.3969/j.issn.1671-1815.2021.09.006
作者姓名:孔令天  李兵  张云飞  李明航  王家琪
作者单位:西安交通大学机械制造系统工程国家重点实验室,西安710049
基金项目:国家自然科学基金资助项目(51875438)
摘    要:随着管道运输行业的发展,复合管道越来越多地应用于机械、能源、化工等领域.利用超声界面波对复合管道的界面位置进行损伤探测成为机械装备超声无损检测研究的新方向.以充液金属复合管道为研究对象,采用多物理场有限元分析软件建立了充液复合管道的有限元模型,利用电信号激励超声界面波,分析了超声界面波在管道中的传播特性,并分析了不同液...

关 键 词:超声界面波  充液复合管道  传播特性  有限元分析
收稿时间:2020-06-07
修稿时间:2020-12-17

Analysis of ultrasonic interface wave propagation in liquid filled bimetal composite pipe
Kong Lingjin,Li Bing,Zhang Yunfei,Li Minghang,Wang Jiaqi. Analysis of ultrasonic interface wave propagation in liquid filled bimetal composite pipe[J]. Science Technology and Engineering, 2021, 21(9): 3475-3480. DOI: 10.3969/j.issn.1671-1815.2021.09.006
Authors:Kong Lingjin  Li Bing  Zhang Yunfei  Li Minghang  Wang Jiaqi
Abstract:With the development of pipeline transportation industry, composite pipeline is more and more used in machinery, energy, chemical and other fields. It is a new research direction of ultrasonic nondestructive testing of mechanical equipment to detect the damage of composite pipeline by ultrasonic interface wave. In this paper, the liquid filled metal composite pipeline is taken as the research object, the finite element model of the liquid filled composite pipeline is established by using the multi physical field finite element analysis software, the ultrasonic interface wave is excited by the electrical signal, the propagation characteristics of the ultrasonic interface wave in the pipeline are analyzed, and the influence of different liquids on the ultrasonic interface wave is analyzed. The results show that: in the liquid filled bimetal composite pipeline, the ultrasonic interface wave is partly from the initial excitation, and partly from the ultrasonic guided wave excited in the liquid; with the propagation, the initially excited ultrasonic interface wave moves to the solid-liquid interface, forming the solid-liquid interface wave, and gradually leaks into the liquid; the ultrasonic guided wave in the liquid passes through the wall reflection of the pipeline every time, A new solid-liquid interface wave is formed at the solid-liquid interface, thus forming a group of solid-liquid interface waves with equal interval propagation. The density of liquid influences the energy distribution of interface wave: the higher the density of liquid, the more dispersed the energy of interface wave; the velocity of longitudinal wave of liquid influences the forming speed of solid-liquid interface wave: the faster the velocity of longitudinal wave, the faster the formation of solid-liquid interface wave. The research and analysis results can provide theoretical basis for pipeline damage detection.
Keywords:ultrasonic interface wave liquid filled composite pipe propagation characteristics finite element analysis
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