Study on Durability of Concrete under Alkali-Aggregate Reaction

Hei, Mingchang; Fayou, A.; Xiong, Jie; Peng, Wei; Yin, Changchuan

doi:10.1155/2022/4223791

Geofluids

2022

DOI: 10.1155/2022/4223791

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Study on Durability of Concrete under Alkali-Aggregate Reaction

Mingchang Hei

A. Fayou

Jie Xiong

et al.

Abstract: The alkali-aggregate reaction has always had a great impact on the safety and durability of concrete projects. Therefore, the study of concrete failure mechanism under alkali-aggregate reaction has become a hot topic in the engineering field. This paper takes the Longtanqing debris flow ditch concrete treatment project as the background. Based on the alkali-aggregate reaction inhibition test under different conditions, regression analysis and trend surface analysis were used to study the correlation between fl… Show more

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Study on the Durability of Silica Fume Concrete in High Sulfate Environment of Plateau

Chen,

Zhang,

et al. 2024

Lecture Notes in Civil Engineering

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To investigate the effect of sulfate corrosion on the compressive strength of silica fume concrete under freeze-thaw conditions, different concretes with silica fume contents of 0%, 5%, 10%, and 15% were exposed to dry-wet erosion with 5% sulfate, freeze-thaw cycles with clear water, and dry-wet erosion with 5% sulfate followed by freeze-thaw cycles for a period of 75 days. The changes in compressive strength under different conditions and at different time intervals were analyzed. The results indicate that the extent of strength damage follows the order: dry-wet+freeze-thaw>freeze-thaw>dry-wet. The combined effect of dry-wet+freeze-thaw accelerates the deterioration of concrete strength. As the silica fume content increases, the rate of concrete compressive strength loss gradually stabilizes. For the 0% and 5% silica fume concretes, the loss of strength under the combined effect of dry-wet+freeze-thaw is more pronounced for 60 days. However, as the silica fume content increases beyond 5%, the rate of strength loss decreases by more than 10%. Therefore, the increase in silica fume content leads to a decrease in the rate of concrete strength loss.

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Study on the Durability of Silica Fume Concrete in High Sulfate Environment of Plateau

Chen,

Zhang,

et al. 2024

Lecture Notes in Civil Engineering

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show abstract

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Study on Durability of Concrete under Alkali-Aggregate Reaction

Cited by 1 publication

References 24 publications

Study on the Durability of Silica Fume Concrete in High Sulfate Environment of Plateau

Study on the Durability of Silica Fume Concrete in High Sulfate Environment of Plateau

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