基于应力波传播的水管材料识别:数值研究

IF 0.5 4区材料科学 Q4 MATERIALS SCIENCE, CHARACTERIZATION & TESTING

Materials Evaluation Pub Date : 2021-08-01 DOI:10.32548/2021.me-04185

P. Aminpour, K. Sjoblom, I. Bartoli

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引用次数: 0

摘要

自来水公司一直在努力更换老化的基础设施，并且越来越多地面临与铅管道存在有关的危机，铅管道可能影响美国许多社区的健康。更换铅管道是一项艰巨的任务，因为它们的位置往往是未知的，而且发现这种危险水管的技术也不可靠。在这些需求的推动下，研究人员探索了基于超声波应力波的无损评估(NDE)策略，作为发现铅管的工具。虽然这些方法具有很大的潜力，但必须了解波传播的复杂性，才能制定有效的濒死体验策略。本文讨论了这种方法的理论基础和复杂性，展示了应力波在不同材料(如铅、钢、铜和PVC)的管道中传播的差异，这些管道是家庭饮用水的常用材料。特别是，不同的应力波速度允许识别不同的管道材料。本研究中提出的模拟表明，在未来几年中，超声波应力波可以用来帮助发现和替换铅管道。

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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Identification of Water Pipe Material Based on Stress Wave Propagation: Numerical Investigations

Water utilities have been struggling to replace their aging infrastructure and have increasingly faced crisis related to the presence of lead pipelines that can affect the health of many communities across the United States. Replacement of lead pipelines is a daunting task because often their location is unknown and technologies to discover such hazardous water lines are unreliable. Driven by these needs, the researchers have explored nondestructive evaluation (NDE) strategies based on ultrasonic stress waves as a tool to discover lead pipelines. While such approaches present great potential, the complexity of wave propagation must be understood to develop an effective NDE strategy. This paper discusses the theoretical foundation and complexities of this approach by showing how stress wave propagation is quite different in pipelines of different materials such as lead, steel, copper, and PVC, which are the common materials used to provide drinking water to households. In particular, different stress wave speeds allow for the identification of different pipeline materials. The simulations presented in this study suggest how ultrasonic stress waves could be deployed in the coming years to help discover and replace lead pipelines.

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来源期刊

Materials Evaluation 工程技术-材料科学：表征与测试

CiteScore

0.90

自引率

16.70%

发文量

审稿时长

6-12 weeks

期刊介绍： Materials Evaluation publishes articles, news and features intended to increase the NDT practitioner’s knowledge of the science and technology involved in the field, bringing informative articles to the NDT public while highlighting the ongoing efforts of ASNT to fulfill its mission. M.E. is a peer-reviewed journal, relying on technicians and researchers to help grow and educate its members by providing relevant, cutting-edge and exclusive content containing technical details and discussions. The only periodical of its kind, M.E. is circulated to members and nonmember paid subscribers. The magazine is truly international in scope, with readers in over 90 nations. The journal’s history and archive reaches back to the earliest formative days of the Society.