A simplified procedure for evaluation of damage-depth in concrete exposed to high temperature using the impact-echo method

IF 4.1 2区 材料科学 Q1 MATERIALS SCIENCE, CHARACTERIZATION & TESTING
Hsuan-Chih Yang , Yiching Lin
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Abstract

Concrete is widely recognized as a material capable of withstanding the intrusion of high temperatures during fires. However, under different high-temperature conditions, concrete can still experience strength reduction, cracking, or spalling, which can significantly impact the safety and durability of concrete structures. Conventionally, the wave refraction technique was used to detect the depth of this damage layer. However, the wave refraction technique is a time-consuming point-by-point detection method. In order to increase detection efficiency, this paper proposes a simplified method based on a single-point test. Numerical analysis of the thermal conduction of a concrete slab exposed to elevated temperature was performed first to investigate the temperature distribution within the concrete slab. Subsequently, the wave refraction technique was numerically simulated to evaluate the damage depth of the concrete slab. According to the refracted wave propagation path, a simplified procedure is proposed for the detection of the damage depth of concrete under high temperature. In the simplified procedure, a receiver is placed at an adequate distance from the impact source so that the first arrival wave at the receiver will be a wave refracted from the interface between the damaged layer and the sound layer inside the concrete. To verify the applicability of the proposed simplified procedure, concrete slab specimens subjected to an elevated temperature of 600 °C were tested in this study. The experimental results indicate that the simplified method proposed in this paper can indeed be used to detect the depth of high-temperature damage in concrete. In addition, the experimental results show that under the same high-temperature exposure conditions, the depth of fire damage increases with a decrease in the water-cement ratio. This can be attributed to the higher thermal conductivity coefficient of concrete with a lower water-cement ratio.
利用冲击回波法评估暴露于高温下的混凝土的破坏深度的简化程序
混凝土被公认为是一种能够在火灾中抵御高温侵袭的材料。然而,在不同的高温条件下,混凝土仍会出现强度降低、开裂或剥落等现象,从而严重影响混凝土结构的安全性和耐久性。传统上,人们使用波折射技术来检测这种损伤层的深度。然而,波折射技术是一种耗时的逐点检测方法。为了提高检测效率,本文提出了一种基于单点检测的简化方法。首先对暴露在高温下的混凝土板的热传导进行了数值分析,以研究混凝土板内的温度分布。随后,对波折射技术进行数值模拟,以评估混凝土板的损坏深度。根据折射波的传播路径,提出了检测高温下混凝土破坏深度的简化程序。在简化程序中,接收器与冲击源保持足够的距离,这样第一个到达接收器的波将是从受损层和混凝土内部声层之间的界面折射出来的波。为了验证所建议的简化程序的适用性,本研究对承受 600 °C 高温的混凝土板试件进行了测试。实验结果表明,本文提出的简化方法确实可用于检测混凝土的高温损伤深度。此外,实验结果表明,在相同的高温暴露条件下,火灾破坏深度随着水灰比的降低而增加。这可归因于水灰比较低的混凝土导热系数较高。
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
Ndt & E International
Ndt & E International 工程技术-材料科学:表征与测试
CiteScore
7.20
自引率
9.50%
发文量
121
审稿时长
55 days
期刊介绍: NDT&E international publishes peer-reviewed results of original research and development in all categories of the fields of nondestructive testing and evaluation including ultrasonics, electromagnetics, radiography, optical and thermal methods. In addition to traditional NDE topics, the emerging technology area of inspection of civil structures and materials is also emphasized. The journal publishes original papers on research and development of new inspection techniques and methods, as well as on novel and innovative applications of established methods. Papers on NDE sensors and their applications both for inspection and process control, as well as papers describing novel NDE systems for structural health monitoring and their performance in industrial settings are also considered. Other regular features include international news, new equipment and a calendar of forthcoming worldwide meetings. This journal is listed in Current Contents.
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