Experimental Analysis on the Frost Resistance of Steel Fiber Reinforced Concrete

NIU Ditao; JIANG Lei; BAI Min

doi:10.11835/j.issn.1674-4764.2012.04.013

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Experimental Analysis on the Frost Resistance of Steel Fiber Reinforced Concrete

更新时间：2023-11-28

- Experimental Analysis on the Frost Resistance of Steel Fiber Reinforced Concrete
- Journal of Civil and Environmental Engineering Vol. 34, Issue 4, Pages: 80-84(2012)
- 作者机构：
  
  西安建筑科技大学,土木工程学院,西安,710055
- 作者简介：
- 基金信息：
- DOI：10.11835/j.issn.1674-4764.2012.04.013
  CLC：
- Published：2012
- 稿件说明：
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NIU Ditao, JIANG Lei, BAI Min. Experimental Analysis on the Frost Resistance of Steel Fiber Reinforced Concrete[J]. Journal of Civil and Environmental Engineering, 2012, 34(4): 80-84.
DOI：

NIU Ditao, JIANG Lei, BAI Min. Experimental Analysis on the Frost Resistance of Steel Fiber Reinforced Concrete[J]. Journal of Civil and Environmental Engineering, 2012, 34(4): 80-84. DOI： 10.11835/j.issn.1674-4764.2012.04.013.

摘要

为了研究钢纤维混凝土的抗冻性能，采用快冻法进行了0%、0.5%、1.0%、1.5%、2.0%五种不同钢纤维掺量的混凝土在水中和3.5%氯化钠溶液中冻融试验。通过分析冻融循环次数和钢纤维体积率对钢纤维混凝土冻融后质量损失、劈裂强度损失和相对动弹性模量变化的影响，分析了冻融环境下钢纤维对混凝土的增强机理。并且用压汞法和SEM从微观上研究了钢纤维混凝土的孔径分布特征，讨论了微观结构对其抗冻性能的影响。研究表明，在冻融循环作用下掺入适量的钢纤维能够减小混凝土内部的孔隙率、增加密实度，有效阻止混凝土内部微裂缝的产生与发展，提高混凝土的抗冻性能。钢纤维掺量对混凝土抗冻性影响显著，掺量为1.5%时，钢纤维对混凝土抗冻性能改善效果最好。

Abstract

The frost resistance of steel fiber reinforced concrete (SFRC) was studied based on the fast freeze thaw tests in water and in a 3.5% sodium chloride solution

with different mass fraction of steel fiber in concrete at 0%

0.5%

1.0%

1.5% and 2.0%

respectively. The effects of the number of freeze thaw cycles and the volume fraction of steel fiber on the mass lose rate

the splitting strength loss rate and the dynamic modulus of elasticity of SFRC were analyzed. The reinforcement mechanism of the steel fiber under the action of freeze and thaw was also discussed. Moreover

mercury intrusion method and SEM analysis were carried out to study the pore size distribution features and the performance of microstructure on the impact of frost resistance of SFRC. The results show that adding an appropriate amount of steel fiber into concrete can reduce the pore porosity and improve the compactness of concrete. Furthermore

the presence of steel fiber proves to shrink the porosity and improve evidently the frost resistance of concrete. It is also shown that the steel fiber content has a great influence on the frost resisting property of SFRC. The best performance of SFRC can be achieved when the volume fraction of steel fiber is 1.5%.

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