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Alkali-Activated Phosphorous Slag Performance under Different Curing Conditions: Compressive Strength, Hydration Products, and Microstructure

Maghsoodloorad, Hojjatollah / Khalili, Hamidreza / Allahverdi, Ali

In this paper, the impact of curing parameters such as precuring time, curing time, and temperature on compressive strength of mortar with phosphorous-slag cement activated with two different compound activators including $NaOH + {Na}_{2} {CO}_{3}$ and ${Na}_{2} {CO}_{3} + Ca (OH)_{2}$ , as well as the microstructure morphology of the hardened mortars, are studied. Furthermore, variance analysis is used to evaluate the effectiveness of each curing parameter. The results show that application of such a combined low-temperature and high-temperature curing regime can effectively improve the quality of the transition zone (porosity and bonding of the cement matrix to aggregate), in addition to the development of more polymeric structures (silicates of $Q^{3}$ -structures) in hydration products. These improvements together result in a threefold increase in the compressive strength compared with environmental curing conditions.

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Alkali-Activated Phosphorous Slag Performance under Different Curing Conditions: Compressive Strength, Hydration Products, and Microstructure

Maghsoodloorad, Hojjatollah / Khalili, Hamidreza / Allahverdi, Ali

In this paper, the impact of curing parameters such as precuring time, curing time, and temperature on compressive strength of mortar with phosphorous-slag cement activated with two different compound activators including $NaOH + {Na}_{2} {CO}_{3}$ and ${Na}_{2} {CO}_{3} + Ca (OH)_{2}$ , as well as the microstructure morphology of the hardened mortars, are studied. Furthermore, variance analysis is used to evaluate the effectiveness of each curing parameter. The results show that application of such a combined low-temperature and high-temperature curing regime can effectively improve the quality of the transition zone (porosity and bonding of the cement matrix to aggregate), in addition to the development of more polymeric structures (silicates of $Q^{3}$ -structures) in hydration products. These improvements together result in a threefold increase in the compressive strength compared with environmental curing conditions.

Alkali-Activated Phosphorous Slag Performance under Different Curing Conditions: Compressive Strength, Hydration Products, and Microstructure

Maghsoodloorad, Hojjatollah / Khalili, Hamidreza / Allahverdi, Ali

In this paper, the impact of curing parameters such as precuring time, curing time, and temperature on compressive strength of mortar with phosphorous-slag cement activated with two different compound activators including $NaOH + {Na}_{2} {CO}_{3}$ and ${Na}_{2} {CO}_{3} + Ca (OH)_{2}$ , as well as the microstructure morphology of the hardened mortars, are studied. Furthermore, variance analysis is used to evaluate the effectiveness of each curing parameter. The results show that application of such a combined low-temperature and high-temperature curing regime can effectively improve the quality of the transition zone (porosity and bonding of the cement matrix to aggregate), in addition to the development of more polymeric structures (silicates of $Q^{3}$ -structures) in hydration products. These improvements together result in a threefold increase in the compressive strength compared with environmental curing conditions.

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Title:

Alkali-Activated Phosphorous Slag Performance under Different Curing Conditions: Compressive Strength, Hydration Products, and Microstructure

Contributors:

Maghsoodloorad, Hojjatollah (author) / Khalili, Hamidreza (author) / Allahverdi, Ali (author)

Published in:

Journal of Materials in Civil Engineering ; 30

Publication date:

2017-10-25

ISSN:

0899-1561 , 1943-5533

DOI:

https://doi.org/10.1061/(ASCE)MT.1943-5533.0002101

Type of media:

Article (Journal)

Type of material:

Electronic Resource

Language:

Unknown

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