Evaluation of Hybrid Fiber Reinforced Concrete Exposed to Severe Environmental Conditions

IF 1 Q4 ENGINEERING, CIVIL
A. Ramezani, M. Esfahani
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引用次数: 2

Abstract

Hybrid fiber reinforced concrete (HFRC) consisting of two or more different types of fibers has been widely investigated because of its superior mechanical properties. In the present study, the effect of the addition of steel (0.25%, 0.5%, 0.75%, and 1% of concrete volume) and Polypropylene (0.2%, 0.4%, and 0.6% of concrete volume) fibers on the surface scaling resistance of concrete, depth of penetration of water, and compressive strength of concrete is investigated. The permeability test is conducted for all the specimens to measure the depth of penetration of water under pressure. Moreover, scaling resistance of concrete subjected to freezing and thawing cycles in the presence of salt solution is assessed to simulate the durability of concrete under field exposure conditions. The results showed that the addition of fibers increases the permeability of concrete. However, it enhances the scaling resistance and compressive strength of concrete. The mixture containing 0.4% of Polypropylene (PP) fibers and 0.75% of steel fibers demonstrated the highest scaling resistance since the scaled materials in this mixture were almost half weight of the materials scaled from the control mixture after 84 cycles of freezing and thawing. Increasing the scaling resistance of concrete leads to a better long-term serviceability performance of HFRC compared to plain concrete, making these composites a great choice for application in environments exposed to cold weather.
混杂纤维增强混凝土在恶劣环境条件下的性能评价
由两种或两种以上不同类型的纤维组成的混合纤维混凝土(HFRC)因其优异的力学性能而受到广泛研究。在本研究中,研究了钢(占混凝土体积的0.25%、0.5%、0.75%和1%)和聚丙烯(占混凝土容积的0.2%、0.4%和0.6%)纤维的添加对混凝土表面结垢阻力、水渗透深度和混凝土抗压强度的影响。对所有试样进行渗透性试验,以测量水在压力下的渗透深度。此外,还评估了在盐溶液存在下经受冻融循环的混凝土的抗结垢性,以模拟混凝土在现场暴露条件下的耐久性。结果表明,纤维的加入提高了混凝土的渗透性。然而,它提高了混凝土的抗结垢性和抗压强度。含有0.4%聚丙烯(PP)纤维和0.75%钢纤维的混合物表现出最高的耐结垢性,因为在84次冷冻和解冻循环后,该混合物中的结垢材料几乎是对照混合物中结垢材料的一半重量。与普通混凝土相比,增加混凝土的抗结垢性可使HFRC具有更好的长期使用性能,使这些复合材料成为暴露在寒冷天气中的应用的绝佳选择。
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
CiteScore
1.30
自引率
60.00%
发文量
0
审稿时长
47 weeks
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