Properties of quenched and self-tempered reinforcing steel subjected to high temperature and different cooling conditions

IF 0.9 Q4 CONSTRUCTION & BUILDING TECHNOLOGY Journal of Structural Fire Engineering Pub Date : 2021-05-07 DOI:10.1108/JSFE-08-2019-0030
I. Hager, S. Kańka, M. Maślak
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Abstract

Purpose The study presents test results concerning the impact of high temperature and different cooling conditions on the mechanical properties of quenched and self-tempered reinforcing steel. The purpose of this paper is to clarify the extent of the history of the material’s temperature development profile, the course and the intensity of fire exposure and how cooling conditions determines its properties. Design/methodology/approach Each specimen series was heated to the temperatures of T = 200°C, 400°C, 600°C, 700°C, 800°C and 1,000 °C. The specimens were either slowly cooled down or subjected to rapid cooling with water quenching, which can be encountered during a firefighting operation. Additionally, stress–strain relationships, microhardness and structural observations were also performed. Findings The results of the presented experiments have shown that the steel bars previously heated in fire conditions were very sensitive to the cooling intensity. The test results from the steel specimens – that were heated and quenched with water – demonstrate an increase in tensile strength but a significant reduction in material plasticity. Originality/value The presented piece of work provides a contribution for fire safety engineering giving insight into the fire behaviour of reinforcing steel under fire conditions and subjected to rapid or slow cooling. This study has shown the threats arising from thermally induced changes in steel microstructure because of high-temperature exposure. It should also be noted that structure changes may have a local character and refer to steel rebars that are exposed because of fire spalling of concrete cover.
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淬火自回火钢筋在高温和不同冷却条件下的性能
目的研究高温和不同冷却条件对调质自调钢筋力学性能影响的试验结果。本文的目的是阐明材料的温度发展概况的历史程度,火灾暴露的过程和强度,以及冷却条件如何决定其性能。每个样品系列被加热到T = 200°C, 400°C, 600°C, 700°C, 800°C和1000°C的温度。试样要么缓慢冷却,要么用水淬快速冷却,这在消防操作中可能会遇到。此外,还进行了应力应变关系,显微硬度和结构观察。实验结果表明,在火灾条件下加热的钢筋对冷却强度非常敏感。经水加热和淬火的钢试样的试验结果表明,拉伸强度增加,但材料塑性显著降低。独创性/价值所呈现的工作为消防安全工程提供了贡献,使我们深入了解了在火灾条件下以及在快速或缓慢冷却下钢筋的火灾行为。本研究揭示了高温暴露引起的钢组织热致变化所带来的威胁。还应注意的是,结构变化可能具有局部特征,并涉及因混凝土覆盖层火灾剥落而暴露的钢筋。
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来源期刊
Journal of Structural Fire Engineering
Journal of Structural Fire Engineering CONSTRUCTION & BUILDING TECHNOLOGY-
CiteScore
2.20
自引率
10.00%
发文量
28
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