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Stabilization of Phosphogypsum by Sulfur Polymer

García-Díaz, Irene / López-Coto, Israel / Bolívar, Juan Pedro / Alguacil, Francisco José / Gázquez, Manuel / López, Félix Antonio

In this research, a new type of phosphogypsum–sulfur polymer cement (PG-SPC) for use in the manufacture of building materials was obtained. Physicochemical, radiological characterization, and modeling of exhalation rates were carried out in phosphogypsum (PG) and PG-SPC samples. Because the PG is enriched in several natural radionucleides, a leaching study in PG-SPC was performed. The optimized ratio of elemental $sulfur / phosphogypsum = 1 ∶ 1.0$ and phosphogypsum dosage = 10–40% by weight was obtained. The result showed that the solidified materials present a highest strength (54–62 MPa) and low total porosity (2.8–6.8%). The activity concentration index ( $I$ ) in the PG-SPC is lower than the reference values in most international regulations; therefore these new sulfur polymer cements can be used without radiological restrictions in the manufacture of building materials inside a standard room ( $5 \times 5 \times 2 m^{3}$ ) with good ventilation. The leaching experiment demonstrated that the environmental impacts of the PG-SPC cements are negligible.

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Stabilization of Phosphogypsum by Sulfur Polymer

García-Díaz, Irene / López-Coto, Israel / Bolívar, Juan Pedro / Alguacil, Francisco José / Gázquez, Manuel / López, Félix Antonio

In this research, a new type of phosphogypsum–sulfur polymer cement (PG-SPC) for use in the manufacture of building materials was obtained. Physicochemical, radiological characterization, and modeling of exhalation rates were carried out in phosphogypsum (PG) and PG-SPC samples. Because the PG is enriched in several natural radionucleides, a leaching study in PG-SPC was performed. The optimized ratio of elemental $sulfur / phosphogypsum = 1 ∶ 1.0$ and phosphogypsum dosage = 10–40% by weight was obtained. The result showed that the solidified materials present a highest strength (54–62 MPa) and low total porosity (2.8–6.8%). The activity concentration index ( $I$ ) in the PG-SPC is lower than the reference values in most international regulations; therefore these new sulfur polymer cements can be used without radiological restrictions in the manufacture of building materials inside a standard room ( $5 \times 5 \times 2 m^{3}$ ) with good ventilation. The leaching experiment demonstrated that the environmental impacts of the PG-SPC cements are negligible.

Stabilization of Phosphogypsum by Sulfur Polymer

García-Díaz, Irene / López-Coto, Israel / Bolívar, Juan Pedro / Alguacil, Francisco José / Gázquez, Manuel / López, Félix Antonio

In this research, a new type of phosphogypsum–sulfur polymer cement (PG-SPC) for use in the manufacture of building materials was obtained. Physicochemical, radiological characterization, and modeling of exhalation rates were carried out in phosphogypsum (PG) and PG-SPC samples. Because the PG is enriched in several natural radionucleides, a leaching study in PG-SPC was performed. The optimized ratio of elemental $sulfur / phosphogypsum = 1 ∶ 1.0$ and phosphogypsum dosage = 10–40% by weight was obtained. The result showed that the solidified materials present a highest strength (54–62 MPa) and low total porosity (2.8–6.8%). The activity concentration index ( $I$ ) in the PG-SPC is lower than the reference values in most international regulations; therefore these new sulfur polymer cements can be used without radiological restrictions in the manufacture of building materials inside a standard room ( $5 \times 5 \times 2 m^{3}$ ) with good ventilation. The leaching experiment demonstrated that the environmental impacts of the PG-SPC cements are negligible.

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Titel:

Stabilization of Phosphogypsum by Sulfur Polymer

Beteiligte:

García-Díaz, Irene (Autor:in) / López-Coto, Israel (Autor:in) / Bolívar, Juan Pedro (Autor:in) / Alguacil, Francisco José (Autor:in) / Gázquez, Manuel (Autor:in) / López, Félix Antonio (Autor:in)

Erschienen in:

Journal of Materials in Civil Engineering ; 25 ; 1041-1049

Erscheinungsdatum:

28.08.2012

Format / Umfang:

92013-01-01 pages

ISSN:

0899-1561 , 1943-5533

DOI:

https://doi.org/10.1061/(ASCE)MT.1943-5533.0000644

Medientyp:

Aufsatz (Zeitschrift)

Format:

Elektronische Ressource

Sprache:

Englisch

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