Mechanical properties and damage constitutive model of phosphogypsum-based cemented backfill under hydrochemical action.

Yufei Li, Nan Yao, Yicheng Ye, Menglong Wu, Guan Chen, Bohai Tan, Wenchao Guan

Environmental science and pollution research international 2023 May

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In order to analyze the early mechanical properties and damage characteristics of phosphogypsum-based cemented backfill (PCB) under hydrochemical action, hydrochemical erosion and uniaxial compression strength (UCS) tests were carried out with HCl solution, NaOH solution, and water respectively. The damage degree is defined by taking the effective bearing area of the soluble cements of PCB under hydrochemistry action as the chemical damage variable, and the modified damage parameter α, which reflects the damage development characteristics, is introduced to construct the damage constitutive model of PCB considering chemical damage and load damage, and the theoretical model is verified with the experimental results. The results show that the damage constitutive model curves of PCB under different hydrochemical action are in good agreement with the experimental results, which verifies the correctness of the theoretical model. When the modified damage parameter α decreases from 1.0 to 0.8, the residual load-bearing capacity of PCB gradually increases, with the damage values of PCB samples in HCl solution and water gradually increasing before the peak and decreasing after the peak, while the damage values of PCB samples in NaOH solution show an overall increasing trend before and after the peak. The slope of the post peak curve of PCB decreases with increasing model parameter n. The results of the study can provide theoretical support and practical guidance for the strength design, long-term erosion deformation, and prediction of PCB in hydrochemical environment. © 2023. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.

Citation

Yufei Li, Nan Yao, Yicheng Ye, Menglong Wu, Guan Chen, Bohai Tan, Wenchao Guan. Mechanical properties and damage constitutive model of phosphogypsum-based cemented backfill under hydrochemical action. Environmental science and pollution research international. 2023 May;30(22):62151-62169