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Effects of Pretreated Phosphogypsum and Granulated Blast-Furnace Slag on the Rheological Properties of the Paste Excited by NaOH

The main component of phosphogypsum (PG) is CaSO(4)·2H(2)O. PG contains a few impurities, heavy metals, and radioisotopes, which limit the use of PG and pose a danger to the environment. In this study, under the excitation of a sodium hydroxide solution, the rheological properties of a paste with gr...

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Detalles Bibliográficos
Autores principales: Dong, Shuangkuai, Yu, Songhan, Chen, Liangliang, Zhuo, Qi, Wu, Fufei, Xie, Lilan, Liu, Liuyan
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2023
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10057308/
https://www.ncbi.nlm.nih.gov/pubmed/36985633
http://dx.doi.org/10.3390/molecules28062662
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author Dong, Shuangkuai
Yu, Songhan
Chen, Liangliang
Zhuo, Qi
Wu, Fufei
Xie, Lilan
Liu, Liuyan
author_facet Dong, Shuangkuai
Yu, Songhan
Chen, Liangliang
Zhuo, Qi
Wu, Fufei
Xie, Lilan
Liu, Liuyan
author_sort Dong, Shuangkuai
collection PubMed
description The main component of phosphogypsum (PG) is CaSO(4)·2H(2)O. PG contains a few impurities, heavy metals, and radioisotopes, which limit the use of PG and pose a danger to the environment. In this study, under the excitation of a sodium hydroxide solution, the rheological properties of a paste with granulated blast-furnace slag (GGBS) and PG treated with ultrasonic water washing were investigated. Experimental results showed that the ratio of GGBS to PG and the amount of sodium hydroxide solution significantly affect the density and viscosity of the paste, but the effect patterns of both are different. The maximum viscosity was 498 mPa·s when the ratio of GGBS to PG was 4:1. When the ratio changed from 3:2 to 1:4, the viscosity of the paste gradually decreased by 15.5%, 32.1%, 36.1%, and 46.8%, respectively. In contrast, the ratio of GGBS to PG had a greater effect on the viscosity than the amount of sodium hydroxide solution in terms of the standard consistency water consumption, viscosity, and water release ratio. The larger the PG ratio, the smaller the density, viscosity, and water release ratio of the paste. The variation in the ratio of GGBS to PG had a significant effect on the water film thickness of the paste, demonstrating that the larger the PG mixture, the larger the water film thickness of the paste, which reached 1.122 μm, 2.31 times the minimum water film thickness of the paste. At the same time, the water film thickness of the paste was negatively correlated with the water consumption of the standard consistency, viscosity, and water release ratio, and was positively correlated with the fluidity.
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spelling pubmed-100573082023-03-30 Effects of Pretreated Phosphogypsum and Granulated Blast-Furnace Slag on the Rheological Properties of the Paste Excited by NaOH Dong, Shuangkuai Yu, Songhan Chen, Liangliang Zhuo, Qi Wu, Fufei Xie, Lilan Liu, Liuyan Molecules Article The main component of phosphogypsum (PG) is CaSO(4)·2H(2)O. PG contains a few impurities, heavy metals, and radioisotopes, which limit the use of PG and pose a danger to the environment. In this study, under the excitation of a sodium hydroxide solution, the rheological properties of a paste with granulated blast-furnace slag (GGBS) and PG treated with ultrasonic water washing were investigated. Experimental results showed that the ratio of GGBS to PG and the amount of sodium hydroxide solution significantly affect the density and viscosity of the paste, but the effect patterns of both are different. The maximum viscosity was 498 mPa·s when the ratio of GGBS to PG was 4:1. When the ratio changed from 3:2 to 1:4, the viscosity of the paste gradually decreased by 15.5%, 32.1%, 36.1%, and 46.8%, respectively. In contrast, the ratio of GGBS to PG had a greater effect on the viscosity than the amount of sodium hydroxide solution in terms of the standard consistency water consumption, viscosity, and water release ratio. The larger the PG ratio, the smaller the density, viscosity, and water release ratio of the paste. The variation in the ratio of GGBS to PG had a significant effect on the water film thickness of the paste, demonstrating that the larger the PG mixture, the larger the water film thickness of the paste, which reached 1.122 μm, 2.31 times the minimum water film thickness of the paste. At the same time, the water film thickness of the paste was negatively correlated with the water consumption of the standard consistency, viscosity, and water release ratio, and was positively correlated with the fluidity. MDPI 2023-03-15 /pmc/articles/PMC10057308/ /pubmed/36985633 http://dx.doi.org/10.3390/molecules28062662 Text en © 2023 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Dong, Shuangkuai
Yu, Songhan
Chen, Liangliang
Zhuo, Qi
Wu, Fufei
Xie, Lilan
Liu, Liuyan
Effects of Pretreated Phosphogypsum and Granulated Blast-Furnace Slag on the Rheological Properties of the Paste Excited by NaOH
title Effects of Pretreated Phosphogypsum and Granulated Blast-Furnace Slag on the Rheological Properties of the Paste Excited by NaOH
title_full Effects of Pretreated Phosphogypsum and Granulated Blast-Furnace Slag on the Rheological Properties of the Paste Excited by NaOH
title_fullStr Effects of Pretreated Phosphogypsum and Granulated Blast-Furnace Slag on the Rheological Properties of the Paste Excited by NaOH
title_full_unstemmed Effects of Pretreated Phosphogypsum and Granulated Blast-Furnace Slag on the Rheological Properties of the Paste Excited by NaOH
title_short Effects of Pretreated Phosphogypsum and Granulated Blast-Furnace Slag on the Rheological Properties of the Paste Excited by NaOH
title_sort effects of pretreated phosphogypsum and granulated blast-furnace slag on the rheological properties of the paste excited by naoh
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10057308/
https://www.ncbi.nlm.nih.gov/pubmed/36985633
http://dx.doi.org/10.3390/molecules28062662
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