Ground penetrating radar applications and implementations in civil construction

IF 3 Q2 ENGINEERING, CIVIL

Journal of Structural Integrity and Maintenance Pub Date : 2023-01-02 DOI:10.1080/24705314.2022.2142901

Macy Spears, S. Hedjazi, H. Taheri

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引用次数: 3

Abstract

ABSTRACT The ability to evaluate civil structures without altering or damaging the materials is becoming increasingly important and useful for the maintenance of infrastructure. The technique to analyze and test materials for weaknesses without causing destruction is referred to as non-destructive evaluation or testing. Specifically, a common method of this type of inspection is called ground penetrating radar (GPR), which is desired in many construction applications. With use of electromagnetic energy, GPR has the capability to locate buried objects in materials because of the differences in electrical and magnetic properties that are encountered. Valuable data can be obtained on these subsurface objects, allowing for an understanding on the properties and making proper judgment on the structure possible. This study explores the approaches in which GPR has been implemented for the assessment of the following structures: pavement, reinforced concrete, railway ballast, soil and buried pipes. Through different data acquisition and processing techniques, results show that there is great success when using GPR for collecting information for verifying the state and condition of these materials.

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探地雷达在民用建筑中的应用与实现

摘要在不改变或损坏材料的情况下评估土木结构的能力对于基础设施的维护越来越重要和有用。在不造成破坏的情况下分析和测试材料弱点的技术被称为无损评估或测试。具体来说，这种类型的检查的一种常见方法被称为探地雷达（GPR），这在许多建筑应用中都是可取的。由于所遇到的电学和磁学性质的差异，GPR利用电磁能能够定位材料中的埋藏物体。可以获得这些地下物体的有价值的数据，从而了解其性质，并对其结构做出正确的判断。本研究探讨了GPR用于评估以下结构的方法：路面、钢筋混凝土、铁路道碴、土壤和埋地管道。通过不同的数据采集和处理技术，结果表明，使用探地雷达收集信息以验证这些材料的状态和条件是非常成功的。

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

Journal of Structural Integrity and Maintenance ENGINEERING, CIVIL-

CiteScore

3.90

自引率

9.50%

发文量