Effect on mechanical properties and stress strain characteristics of normal and high strength concrete at elevated temperature

V. Patel, Brijesh Singh, P. Ojha, B. Mohapatra
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Abstract

High strength concrete (HSC) has some disadvantages such as brittleness and poor resistance to fire. Fire exposure affects the concrete in way that the disintegration of concrete starts and a severe surface spalling occurs at very high temperatures. Therefore, the structural behaviour or response to the load will change after fire exposure and the structural members may not behave as they were designed. Further, the basics of flexural design depend on the stress- strain response of the concrete which is also affected upon fire exposure. Hence, this study is carried out to provide useful input to aid the provision of a fire resistance for structural behaviour of concrete by investigating the effects on mechanical properties of concrete after exposure to high temperatures up to 600°C and establishing a stress-strain relationship. The concrete cylinders of size 100 mm x 200 mm were exposed to the temperature of 2000C, 4000C and 6000C after which the residual compressive strength, split tensile strength and flexural strength were recorded. For stress strain characteristics, 100 × 200 mm cylinders with polypropylene fiber content of 0.5% by volume of concrete were subjected to temperature exposure of 6000C for durations of 1 hour. Curves for reduction factors of strength and stress strain characteristics after fire/elevated temperature exposure has been established. Just consideration of reduced strength for assessment after fire exposure will not serve the purpose as the change in load response and increased deformation capacity also needs to be addressed properly.
高温下对普通高强混凝土力学性能和应力应变特性的影响
高强度混凝土(HSC)具有脆性大、耐火性差等缺点。火灾对混凝土的影响方式是,混凝土开始分解,在非常高的温度下会发生严重的表面剥落。因此,火灾暴露后,结构性能或对荷载的响应将发生变化,结构构件可能不会像设计时那样工作。此外,弯曲设计的基础取决于混凝土的应力-应变响应,这也受到火灾暴露的影响。因此,本研究旨在通过研究暴露在高达600°C的高温下对混凝土力学性能的影响并建立应力-应变关系,为混凝土结构性能的耐火性提供有用的投入。将尺寸为100 mm x 200 mm的混凝土圆柱体暴露于2000℃、4000℃和6000℃的温度下,然后记录残余抗压强度、劈拉强度和弯曲强度。对于应力应变特性,将聚丙烯纤维含量为混凝土体积0.5%的100×200mm圆柱体暴露在6000℃的温度下1小时。建立了火灾/高温暴露后强度和应力应变特性的折减系数曲线。仅仅考虑火灾暴露后强度降低的评估并不能达到目的,因为荷载响应的变化和变形能力的增加也需要适当解决。
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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