Mechanical and Durability Properties of Poorly Graded Sandy Soil Stabilized with Activated Slag: Fid-Bau Portal

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Mechanical and Durability Properties of Poorly Graded Sandy Soil Stabilized with Activated Slag

Hossein Rafiean, Amir / Najafi Kani, Ebrahim / Haddad, Abdolhosein

This study focused on the evaluation of the mechanical and durability aspects of stabilized poorly graded sandy soil by activated blast furnace slag cements (ASCs) with three different activators with combinations of ${Na}_{2} {SiO}_{3}$ and NaOH (PN), ${Na}_{2} {CO}_{3}$ and $Ca (OH)_{2}$ (PC), and ${Na}_{2} {SO}_{4}$ and $Ca (OH)_{2}$ (PS). Type of activators, binder percentage, and curing time were investigated as parameters. The results of unconfined compression strength (UCS) of samples in a constant amount of binder/soil (5-wt%) showed an increase from 0.75-MPa for ordinary portland cement (OPC)-based samples to 2.28, 2.63, and 4.5-MPa for PC-, PN-, and PS-based samples, respectively. Due to its high UCS sample value, the activator considered most effective is PS based. The formed gel between the soil’s particles results from the dense microstructure and fewer voids in the sample suggests a higher interaction level between soil and binder. PS- and PC-based binders showed more ductility than OPC-based stabilized soil. Moreover, ASC samples showed better soundness than OPC samples, due to less volume changes, stronger bonds between soil particles, binder matrix, and absence of destructive expansion.

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Mechanical and Durability Properties of Poorly Graded Sandy Soil Stabilized with Activated Slag

Hossein Rafiean, Amir / Najafi Kani, Ebrahim / Haddad, Abdolhosein

This study focused on the evaluation of the mechanical and durability aspects of stabilized poorly graded sandy soil by activated blast furnace slag cements (ASCs) with three different activators with combinations of ${Na}_{2} {SiO}_{3}$ and NaOH (PN), ${Na}_{2} {CO}_{3}$ and $Ca (OH)_{2}$ (PC), and ${Na}_{2} {SO}_{4}$ and $Ca (OH)_{2}$ (PS). Type of activators, binder percentage, and curing time were investigated as parameters. The results of unconfined compression strength (UCS) of samples in a constant amount of binder/soil (5-wt%) showed an increase from 0.75-MPa for ordinary portland cement (OPC)-based samples to 2.28, 2.63, and 4.5-MPa for PC-, PN-, and PS-based samples, respectively. Due to its high UCS sample value, the activator considered most effective is PS based. The formed gel between the soil’s particles results from the dense microstructure and fewer voids in the sample suggests a higher interaction level between soil and binder. PS- and PC-based binders showed more ductility than OPC-based stabilized soil. Moreover, ASC samples showed better soundness than OPC samples, due to less volume changes, stronger bonds between soil particles, binder matrix, and absence of destructive expansion.

Mechanical and Durability Properties of Poorly Graded Sandy Soil Stabilized with Activated Slag

Hossein Rafiean, Amir / Najafi Kani, Ebrahim / Haddad, Abdolhosein

This study focused on the evaluation of the mechanical and durability aspects of stabilized poorly graded sandy soil by activated blast furnace slag cements (ASCs) with three different activators with combinations of ${Na}_{2} {SiO}_{3}$ and NaOH (PN), ${Na}_{2} {CO}_{3}$ and $Ca (OH)_{2}$ (PC), and ${Na}_{2} {SO}_{4}$ and $Ca (OH)_{2}$ (PS). Type of activators, binder percentage, and curing time were investigated as parameters. The results of unconfined compression strength (UCS) of samples in a constant amount of binder/soil (5-wt%) showed an increase from 0.75-MPa for ordinary portland cement (OPC)-based samples to 2.28, 2.63, and 4.5-MPa for PC-, PN-, and PS-based samples, respectively. Due to its high UCS sample value, the activator considered most effective is PS based. The formed gel between the soil’s particles results from the dense microstructure and fewer voids in the sample suggests a higher interaction level between soil and binder. PS- and PC-based binders showed more ductility than OPC-based stabilized soil. Moreover, ASC samples showed better soundness than OPC samples, due to less volume changes, stronger bonds between soil particles, binder matrix, and absence of destructive expansion.

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Title:

Mechanical and Durability Properties of Poorly Graded Sandy Soil Stabilized with Activated Slag

Contributors:

Hossein Rafiean, Amir (author) / Najafi Kani, Ebrahim (author) / Haddad, Abdolhosein (author)

Published in:

Journal of Materials in Civil Engineering ; 32

Publication date:

2019-10-24

ISSN:

0899-1561 , 1943-5533

DOI:

https://doi.org/10.1061/(ASCE)MT.1943-5533.0002990

Type of media:

Article (Journal)

Type of material:

Electronic Resource

Language:

Unknown

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