Influence of the Cement Fineness on Strengths of Cement Pastes Containing High Phosphorus Slag: Fid-Bau Portal

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Influence of the Cement Fineness on Strengths of Cement Pastes Containing High Phosphorus Slag

Jinhui, Tang / Min, Deng / Aiguo, Wang / Lilan, Xie

Mechanical grinding was used to increase the specific surface area of cement in order to increase the dosage of phosphorus slag (PS) in Type $P \cdot O 42.5$ cement. X-ray diffraction, hydration heat, and scanning electron microscopy were used to analyze the hydration process of cement containing PS. The results show that the increase of fineness of cement can obviously improve the mechanical property of PS cement pastes. When specific surface area increased to $460 m^{2} / kg$ , the flexural strength and compressive strength of cement mortars mixed with 40% PS for 3 and 28 days are 3.77, 17.6, 9.89, and 52.0 MPa, respectively, still meeting the strength requirements of Type $P \cdot O 42.5$ cement. The PS admixture can effectively lower the hydration heat of cement. Phosphorus slag delayed the hydration process of cement, inhibited the formation of ettringite and contributed a low strength of mortars for 3 days curing. The degree of hydration of PS at the early ages was low, leading to a poor interface between PS particle and cement matrix.

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Influence of the Cement Fineness on Strengths of Cement Pastes Containing High Phosphorus Slag

Jinhui, Tang / Min, Deng / Aiguo, Wang / Lilan, Xie

Mechanical grinding was used to increase the specific surface area of cement in order to increase the dosage of phosphorus slag (PS) in Type $P \cdot O 42.5$ cement. X-ray diffraction, hydration heat, and scanning electron microscopy were used to analyze the hydration process of cement containing PS. The results show that the increase of fineness of cement can obviously improve the mechanical property of PS cement pastes. When specific surface area increased to $460 m^{2} / kg$ , the flexural strength and compressive strength of cement mortars mixed with 40% PS for 3 and 28 days are 3.77, 17.6, 9.89, and 52.0 MPa, respectively, still meeting the strength requirements of Type $P \cdot O 42.5$ cement. The PS admixture can effectively lower the hydration heat of cement. Phosphorus slag delayed the hydration process of cement, inhibited the formation of ettringite and contributed a low strength of mortars for 3 days curing. The degree of hydration of PS at the early ages was low, leading to a poor interface between PS particle and cement matrix.

Influence of the Cement Fineness on Strengths of Cement Pastes Containing High Phosphorus Slag

Jinhui, Tang / Min, Deng / Aiguo, Wang / Lilan, Xie

Mechanical grinding was used to increase the specific surface area of cement in order to increase the dosage of phosphorus slag (PS) in Type $P \cdot O 42.5$ cement. X-ray diffraction, hydration heat, and scanning electron microscopy were used to analyze the hydration process of cement containing PS. The results show that the increase of fineness of cement can obviously improve the mechanical property of PS cement pastes. When specific surface area increased to $460 m^{2} / kg$ , the flexural strength and compressive strength of cement mortars mixed with 40% PS for 3 and 28 days are 3.77, 17.6, 9.89, and 52.0 MPa, respectively, still meeting the strength requirements of Type $P \cdot O 42.5$ cement. The PS admixture can effectively lower the hydration heat of cement. Phosphorus slag delayed the hydration process of cement, inhibited the formation of ettringite and contributed a low strength of mortars for 3 days curing. The degree of hydration of PS at the early ages was low, leading to a poor interface between PS particle and cement matrix.

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Title:

Influence of the Cement Fineness on Strengths of Cement Pastes Containing High Phosphorus Slag

Contributors:

Jinhui, Tang (author) / Min, Deng (author) / Aiguo, Wang (author) / Lilan, Xie (author)

Published in:

Journal of Materials in Civil Engineering ; 27

Publication date:

2015-04-16

ISSN:

0899-1561 , 1943-5533

DOI:

https://doi.org/10.1061/(ASCE)MT.1943-5533.0001316

Type of media:

Article (Journal)

Type of material:

Electronic Resource

Language:

Unknown

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