Regularity of Compressive Strength Deterioration and Grey Prediction of Concrete Corrosion in Ammonium Sulfate Solution

DENG Tong-fa; PENG Jian; OUYANG Bin; ZHU Pei-dong; LIN Huang

doi:10.11988/ckyyb.20150354

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Journal of Changjiang River Scientific Research Institute ›› 2016, Vol. 33 ›› Issue (7) : 126-131. DOI: 10.11988/ckyyb.20150354

HYDRAULIC STRUCTURE AND MATERIAL

Regularity of Compressive Strength Deterioration and Grey Prediction of Concrete Corrosion in Ammonium Sulfate Solution

DENG Tong-fa^1,2, PENG Jian^1,2, OUYANG Bin³, ZHU Pei-dong¹, LIN Huang¹

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Abstract

Corrosion tests were carried out by immersing concretes in ammonium sulfate solution of 5% concentration. The concretes are of different material compositions of water cement ratio, paste aggregate ratio and content of fly ash. The regularity of deterioration of compressive strength of immersed concretes during 0-120 d corrosion age were obtained. The grey correlation analysis method was used to research the influence of different factors on the compressive strength of concrete, and the GM (1,1) prediction model was established to forecast the service life and strength deterioration of the concretes in ammonium sulfate solution. Results show that the concretes with water cement ratio of 0.4, paste aggregate ratio of 0.28 and fly ash content of 10% have better anti-erosion performance. Moreover, the compressive strength of concretes declines significantly with the increases in water cement ratio, paste aggregate ratio and fly ash dosage. The prediction results by the GM(1,1) model indicate that the lifetimes of concretes with water cement ratio of 0.4, paste aggregate ratio of 0.28 and fly ash content of 10% increase by 247%, 125% and 74% than those of concretes with the same influence factors, respectively.

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ammonium sulfate / concrete / water cement ratio / paste aggregate ratio / fly ash content / GM (1,1) prediction model

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DENG Tong-fa, PENG Jian, OUYANG Bin, ZHU Pei-dong, LIN Huang. Regularity of Compressive Strength Deterioration and Grey Prediction of Concrete Corrosion in Ammonium Sulfate Solution[J]. Journal of Changjiang River Scientific Research Institute. 2016, 33(7): 126-131 https://doi.org/10.11988/ckyyb.20150354

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