Peiying Fang scite author profile

Peiying Fang

4Publications

4Citation Statements Received

0Citation Statements Given

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127

Affiliations

Taiyuan University of Technology, Zhongda Hospital Southeast University

Publications

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Engineering Performance Evaluation of Recycled Red Mud Stabilized Loessial Silt as a Sustainable Subgrade Material

Duan

Liu

et al. 2022

Materials

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Industrial solid waste red mud discharge has caused serious environmental problems. This study utilized red mud as an additive to loessial silt being used for roadway subgrade material. In this study, unconfined compressive test, direct shear test, electrical resistivity test, and hydraulic conductivity test were conducted on red mud stabilized loessial silt (RMLS) with different red mud dosage (DR) to investigate DR effect on mechanical-electrical-hydro properties. Scanning electron microscope (SEM) and X-ray diffraction (XRD) analyses were carried out to reveal the mechanism from micro perspective. The results showed addition of appropriate amount of red mud (30–42%) effectively improved unconfined compressive strength of treated loessial silt but reduced resistivity and hydraulic conductivity. Significant correlation between resistivity and strength performance of RMLS mixture was developed. Microscopic analysis indicates red mud addition will promote generation of hydration products such as calcium silicate hydrations (C-S-H), calcium silicate aluminates hydrations (C-A-S-H), and ettringite (Aft), which will tightly connect surrounding particles of loessial silt and hydrates. Red mud particles adhere to surface of soil particles and fill in pores between them improving a compact and stable structure. This study demonstrated the feasibility of using red mud as a stabilization material for roadway subgrade and proved that resistivity measurement is a nondestructive testing method to evaluate mechanical properties for RMLS mixture.

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Study on Properties of Copper-Contaminated Soil Solidified by Solid Waste System Combined with Cement

Liang¹,

Zhang

Fang

et al. 2022

Sustainability

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Three industrial solid wastes including red mud, carbide slag, and phosphogypsum combined with ordinary Portland cement were used as curing agents to solidify/stabilize loess polluted by a high concentration of copper ions. The unconfined compressive strength, resistivity, permeability coefficient, copper ion leaching concentration, pH value, and other engineering application evaluation indexes were analyzed to preliminarily assess the applicability of the curing agent in the remediation of soil contaminated with a high concentration of copper ions. The mineral phases and functional groups of solidified soil were detected using XRD and FTIR, showing that the strength, electrical resistivity, and pH value of solidified soil decrease following the addition of copper ions. Moreover, the strength and resistivity of solidified soil increase with the curing age, and the pH value decreases with age. For solidified contaminated soil, when the total content of curing agent increases from 10 to 20%, the maximum 28 d strength increases from 1.35 to 5.43 MPa, and in this study, its permeability coefficient, copper ion leaching concentration, and pH value were found to be within the limits set by relevant national standards. In conclusion, red mud-carbide slag-phosphogypsum combined with cement has a good stabilizing effect on sites polluted with a high concentration of copper ions.

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Influence and microscopic mechanism of the solid waste-mixture on solidification of Cu2+-contaminated soil

Suo

Fang

Cao

et al. 2021

Construction and Building Materials

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AS-239 Elevated Serum Surfactant Protein D is Associated with the Severity of Coronary Lesions and Poor Prognosis in Patients with Coronary Artery Disease and Chronic Kidney Disease

Zhang

Fang

Chen

2012

The American Journal of Cardiology

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Peiying Fang

Engineering Performance Evaluation of Recycled Red Mud Stabilized Loessial Silt as a Sustainable Subgrade Material

Study on Properties of Copper-Contaminated Soil Solidified by Solid Waste System Combined with Cement

Influence and microscopic mechanism of the solid waste-mixture on solidification of Cu2+-contaminated soil

AS-239 Elevated Serum Surfactant Protein D is Associated with the Severity of Coronary Lesions and Poor Prognosis in Patients with Coronary Artery Disease and Chronic Kidney Disease

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