1D infiltration behavior of two-layered recycled concrete aggregates using hydrophobic materials in a column apparatus

Harianto Rahardjo; Arun Prasad; Alfrendo Satyanaga; Haneena Mohamed; Eng Choon Leong; Chien Looi Wang; Johnny Liang Heng Wong

doi:10.1061/(ASCE)MT.1943-5533.0001876

1D infiltration behavior of two-layered recycled concrete aggregates using hydrophobic materials in a column apparatus

Harianto Rahardjo^*, Arun Prasad, Alfrendo Satyanaga, Haneena Mohamed, Eng Choon Leong, Chien Looi Wang, Johnny Liang Heng Wong

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

8 Citations (Scopus)

Abstract

The infiltration characteristics of two different hydrophobic materials were investigated in this study. The materials used in this study were fine and coarse recycled concrete aggregates (RCA). One-dimensional (1D) vertical infiltration column tests were carried out on fine RCA over coarse RCA, fine RCA over coarse RCA with oil, and fine RCA over coarse RCA with wax. The column apparatus were instrumented with a tensiometer-transducer system, data acquisition system, soil moisture sensor, and electronic weighing balance. The comprehensive instruments were used to measure pore-water pressure, water content, and outflow rate of water instantaneously and automatically. The experimental results indicated that the water flowed faster within the layer of coarse RCA with oil and wax as compared to that within the layer of coarse RCA without oil and wax. This could be attributed to the hydrophobicity of each solid particle of coarse RCA that was coated with oil and wax.

Original language	English
Article number	04017053
Journal	Journal of Materials in Civil Engineering
Volume	29
Issue number	8
DOIs	https://doi.org/10.1061/(ASCE)MT.1943-5533.0001876
Publication status	Published - Aug 1 2017
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2017 American Society of Civil Engineers.

ASJC Scopus Subject Areas

Civil and Structural Engineering
Building and Construction
General Materials Science
Mechanics of Materials

Keywords

Hydrophobicity
One-dimensional (1D) infiltration
Permeability function
Recycled concrete aggregate
Soil-water characteristics curve

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10.1061/(ASCE)MT.1943-5533.0001876

Cite this

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title = "1D infiltration behavior of two-layered recycled concrete aggregates using hydrophobic materials in a column apparatus",

abstract = "The infiltration characteristics of two different hydrophobic materials were investigated in this study. The materials used in this study were fine and coarse recycled concrete aggregates (RCA). One-dimensional (1D) vertical infiltration column tests were carried out on fine RCA over coarse RCA, fine RCA over coarse RCA with oil, and fine RCA over coarse RCA with wax. The column apparatus were instrumented with a tensiometer-transducer system, data acquisition system, soil moisture sensor, and electronic weighing balance. The comprehensive instruments were used to measure pore-water pressure, water content, and outflow rate of water instantaneously and automatically. The experimental results indicated that the water flowed faster within the layer of coarse RCA with oil and wax as compared to that within the layer of coarse RCA without oil and wax. This could be attributed to the hydrophobicity of each solid particle of coarse RCA that was coated with oil and wax.",

keywords = "Hydrophobicity, One-dimensional (1D) infiltration, Permeability function, Recycled concrete aggregate, Soil-water characteristics curve",

author = "Harianto Rahardjo and Arun Prasad and Alfrendo Satyanaga and Haneena Mohamed and Leong, {Eng Choon} and Wang, {Chien Looi} and Wong, {Johnny Liang Heng}",

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doi = "10.1061/(ASCE)MT.1943-5533.0001876",

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T1 - 1D infiltration behavior of two-layered recycled concrete aggregates using hydrophobic materials in a column apparatus

AU - Rahardjo, Harianto

AU - Prasad, Arun

AU - Satyanaga, Alfrendo

AU - Mohamed, Haneena

AU - Leong, Eng Choon

AU - Wang, Chien Looi

AU - Wong, Johnny Liang Heng

PY - 2017/8/1

Y1 - 2017/8/1

N2 - The infiltration characteristics of two different hydrophobic materials were investigated in this study. The materials used in this study were fine and coarse recycled concrete aggregates (RCA). One-dimensional (1D) vertical infiltration column tests were carried out on fine RCA over coarse RCA, fine RCA over coarse RCA with oil, and fine RCA over coarse RCA with wax. The column apparatus were instrumented with a tensiometer-transducer system, data acquisition system, soil moisture sensor, and electronic weighing balance. The comprehensive instruments were used to measure pore-water pressure, water content, and outflow rate of water instantaneously and automatically. The experimental results indicated that the water flowed faster within the layer of coarse RCA with oil and wax as compared to that within the layer of coarse RCA without oil and wax. This could be attributed to the hydrophobicity of each solid particle of coarse RCA that was coated with oil and wax.

AB - The infiltration characteristics of two different hydrophobic materials were investigated in this study. The materials used in this study were fine and coarse recycled concrete aggregates (RCA). One-dimensional (1D) vertical infiltration column tests were carried out on fine RCA over coarse RCA, fine RCA over coarse RCA with oil, and fine RCA over coarse RCA with wax. The column apparatus were instrumented with a tensiometer-transducer system, data acquisition system, soil moisture sensor, and electronic weighing balance. The comprehensive instruments were used to measure pore-water pressure, water content, and outflow rate of water instantaneously and automatically. The experimental results indicated that the water flowed faster within the layer of coarse RCA with oil and wax as compared to that within the layer of coarse RCA without oil and wax. This could be attributed to the hydrophobicity of each solid particle of coarse RCA that was coated with oil and wax.

KW - Hydrophobicity

KW - One-dimensional (1D) infiltration

KW - Permeability function

KW - Recycled concrete aggregate

KW - Soil-water characteristics curve

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1D infiltration behavior of two-layered recycled concrete aggregates using hydrophobic materials in a column apparatus

Abstract

Bibliographical note

ASJC Scopus Subject Areas

Keywords

Access to Document

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