Monitoring the evolution of water and chloride in concrete using GPR full-waveform inversion

2011 6th International Workshop on Advanced Ground Penetrating Radar (IWAGPR) Pub Date : 2011-06-22 DOI:10.1109/IWAGPR.2011.5963904

A. Kalogeropoulos, J. van der Kruk, J. Hugenschmidt

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引用次数: 4

Abstract

The assessment of ageing concrete structures is a major technical challenge faced by the Civil Engineers of today. Concrete bridges are exposed to corrosion from the spreading of de-icing salts on roads during winter. Corrosion is problematic because it reduces the reinforcement's load carrying capacity and a long-term consequence can be structural failure. This paper describes an experiment that consisted in exposing a concrete specimen to a controlled wetting-drying cycle using a saline solution. This setup enabled the concentration of chlorides to be distributed in gradients inside the specimen. A novel methodology to estimate material properties, based on ground penetrating radar (GPR) full-waveform inversion, was used to process GPR traces. In this paper, each reflection present in the trace was regarded independently. This procedure was applied to a dataset acquired with bistatic off-ground GPR antennas. Measurements were carried out above the test specimen at regular time lapses. This allowed monitoring of the electromagnetic parameters of the top and bottom concrete specimen surfaces during the wetting-drying cycle.

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利用探地雷达全波形反演监测混凝土中水和氯化物的演变

老化混凝土结构的评估是当今土木工程师面临的主要技术挑战。在冬天，混凝土桥梁会因为道路上撒除冰盐而受到腐蚀。腐蚀是一个问题，因为它降低了钢筋的承载能力，长期的后果可能是结构破坏。本文描述了一项实验，该实验包括将混凝土试样暴露在使用盐溶液的受控干湿循环中。这种设置使氯化物的浓度在试样内部呈梯度分布。提出了一种基于探地雷达全波形反演的材料属性估计新方法，并对探地雷达轨迹进行了处理。在本文中，每个反射存在于道是独立考虑的。该方法应用于地面双基地探地雷达天线采集的数据集。测量是在试样上方按规则的时间间隔进行的。这允许在干湿循环过程中监测混凝土试样表面的电磁参数。

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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2011 6th International Workshop on Advanced Ground Penetrating Radar (IWAGPR)

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