Experimental research on durability of high-performance synthetic fibers reinforced concrete: Resistance to sulfate attack and freezing-thawing

•Resistance to sulfate attack of HPSFRC has been tested under action of wetting-drying cycles.•Freezing-thawing resistance of HPSFRC has been tested in sodium sulfate solution.•An empirical model to predict damage degree under action of freezing-thawing has been developed.•Influence on freezing-thaw...

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Bibliographic Details
Published in:Construction & building materials 2020-11, Vol.262, p.120055, Article 120055
Main Authors: Meng, Chaomei, Li, Wenzhe, Cai, Liangcai, Shi, Xingang, Jiang, Chunlin
Format: Article
Language:English
Subjects:
Deterioration mechanism
Durability
Freezing-thawing resistance
High-performance synthetic fibers reinforced concrete
Resistance to sulfate attack
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Summary:•Resistance to sulfate attack of HPSFRC has been tested under action of wetting-drying cycles.•Freezing-thawing resistance of HPSFRC has been tested in sodium sulfate solution.•An empirical model to predict damage degree under action of freezing-thawing has been developed.•Influence on freezing-thawing resistance has been analyzed based on response surface methodology. Experimental research on durability of high-performance synthetic fibers reinforced concrete (HPSFRC) is conducted based on its excellent mechanical performance. The results indicate that HPSFRC shows superior resistances to sulfate attack and freezing-thawing over the ordinary concrete due to its excellent anti-crack performance. HPSFRC has an optimum dosage of high-performance synthetic fiber (HPSF) for achieving good mechanical performance and durability. Additionally, the influences of freezing-thawing cycles, concentration of sodium sulfate solution, and fiber content on the freezing-thawing resistance of HPSFRC are analyzed using response surface methodology. The analysis results show that the freezing-thawing cycles have the most significant influence on freezing-thawing resistance, followed by concentration of sodium sulfate solution and fiber content.
ISSN:0950-0618
DOI:10.1016/j.conbuildmat.2020.120055