The relationship between the compressive strength and ultrasonic pulse velocity concrete with fibers exposed to high temperatures

International Journal of Energetica Pub Date : 2018-06-30 DOI:10.47238/IJECA.V3I1.63

Belaribi Hassiba, M. Mekki, Rahmani Fraid

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引用次数: 12

Abstract

The paper analyses the effects of high temperatures on the concrete residual strength using ultrasonic velocity (UPV). An experimental investigation was conducted to study the relationship between UPV residual data and compressive strength of concrete with different mixture proportions, cubic specimens with water-cement ratio of 0.35. They were heated in an electric furnace at temperatures ranging from 200°C to 600°C. In this experiment a comparison was made between the four groups which include two types of ﬁbers steel 0,19%, 0,25% and 0,5%, polypropylene: 0,05%, 0,11% 0,16 % by volume. Cube specimens were tested in order to determine ultrasonic velocity. The compressive strength was tested too. According to the results, relations were established between ultrasonic velocity in the specimens and the compressive strength at different temperature and the range of the velocity of the waves were also determined for this kind of concrete. Result of the test showed that UPV test can be successfully used in order to verify the consistency of structures damaged by fire.

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高温下纤维混凝土抗压强度与超声脉冲速度的关系

利用超声速度(UPV)分析了高温对混凝土残余强度的影响。以水灰比为0.35的立方体试件为试验对象，研究了不同配合比下UPV残差数据与混凝土抗压强度的关系。它们在电炉中加热，温度从200°C到600°C不等。本实验对两种纤维(钢:0,19%、0,25%、0,5%)和聚丙烯:0,05%、0,11%、0,16%)的四组进行了体积比较。为了确定超声波的速度，对立方体试样进行了测试。并对其抗压强度进行了测试。根据试验结果，建立了不同温度下试件的超声波速与抗压强度之间的关系，并确定了该类型混凝土的波速范围。试验结果表明，UPV试验可以成功地用于验证火灾破坏结构的一致性。

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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International Journal of Energetica

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