Chemical stabilisation of sandstone road aggregate layers: a literature review: A Literature Review

Amalina Ali; Elsaid M.M. Zahran; Soon Jian Tan; Nurul Hasan

doi:10.1063/5.0110713

Chemical stabilisation of sandstone road aggregate layers: a literature review: A Literature Review

Amalina Ali, Elsaid M.M. Zahran, Soon Jian Tan, Nurul Hasan

Research output: Chapter in Book/Conference proceeding › Conference contribution › peer-review

1 Citation (Scopus)

17 Downloads (Pure)

Abstract

The increasing demand for aggregates for road construction and development has led to increased exploitation of mineral resources, resulting in their scarcity. This has an adverse effect on the environment as well as the cost of road development, especially when local aggregates are of poor quality and not suitable for road construction, requiring long-distance transportation or importation from another country. An approach that could be more cost-effective is the chemical stabilisation of locally available weak aggregates such as sandstone. This paper reviewed the most commonly used traditional and non-traditional additives for the stabilisation of road aggregate layers. The literature review focused on the type of soil for which each additive is best suited, the binding mechanism involved and the advantages and limitations of using each additive for soil stabilisation. It was found that the majority of the existing literature had focused on the chemical stabilisation of conventional road materials and demolition and waste aggregates for use in pavement base and/or subbase layers, but only a few looked into sandstone chemical stabilisation. Sandstone aggregate investigations have been limited to either cement and/or polymer stabilisation for road aggregate layers or cement concrete mixtures for building construction. As a result, this paper revealed a knowledge gap regarding the strength development of sandstone road aggregate layers after stabilisation with fly ash and lime, either separately or in combination, which is predominantly measured in terms of the unconfined compressive strength, indirect tensile strength, and California Bearing Ratio. Future research to address the gap in knowledge will provide insight into a potentially cost-effective alternative and sustainable road construction by utilising locally available sandstone aggregate and fly ash waste material.

Original language	English
Title of host publication	8th Brunei International Conference on Engineering and Technology 2021
Editors	Mohammad Yeakub Ali, Rama Rao Karri, Shahriar Shams, Roslynna Rosli, Ena Kartina Abdul Rahman, Ramesh Singh
Publisher	American Institute of Physics Inc.
Number of pages	9
Volume	2643
Edition	1
ISBN (Electronic)	9780735442795
DOIs	https://doi.org/10.1063/5.0110713
Publication status	Published - 10 Jan 2023
Externally published	Yes
Event	8th Brunei International Conference on Engineering and Technology 2021, BICET 2021 - Bandar Seri Begawan, Brunei Darussalam Duration: 8 Nov 2021 → 10 Nov 2021

Publication series

Name	AIP Conference Proceedings
Volume	2643
ISSN (Print)	0094-243X
ISSN (Electronic)	1551-7616

Conference

Conference	8th Brunei International Conference on Engineering and Technology 2021, BICET 2021
Country/Territory	Brunei Darussalam
City	Bandar Seri Begawan
Period	8/11/21 → 10/11/21

Keywords

Sandstones
aggregates
soil stabilisation
cement
lime
polymer
fly ash
pavement
base
subbase

ASJC Scopus subject areas

General Physics and Astronomy

Access to Document

10.1063/5.0110713

PublishedFinal published version, 592 KBLicence: CC BY-ND

https://aip.scitation.org/doi/abs/10.1063/5.0110713

Cite this

Ali, A., Zahran, E. M. M., Tan, S. J., & Hasan, N. (2023). Chemical stabilisation of sandstone road aggregate layers: a literature review: A Literature Review. In M. Y. Ali, R. R. Karri, S. Shams, R. Rosli, E. K. A. Rahman, & R. Singh (Eds.), 8th Brunei International Conference on Engineering and Technology 2021 (1 ed., Vol. 2643). Article 030015 (AIP Conference Proceedings; Vol. 2643). American Institute of Physics Inc.. https://doi.org/10.1063/5.0110713

Ali, Amalina ; Zahran, Elsaid M.M. ; Tan, Soon Jian et al. / Chemical stabilisation of sandstone road aggregate layers: a literature review : A Literature Review. 8th Brunei International Conference on Engineering and Technology 2021. editor / Mohammad Yeakub Ali ; Rama Rao Karri ; Shahriar Shams ; Roslynna Rosli ; Ena Kartina Abdul Rahman ; Ramesh Singh. Vol. 2643 1. ed. American Institute of Physics Inc., 2023. (AIP Conference Proceedings).

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title = "Chemical stabilisation of sandstone road aggregate layers: a literature review: A Literature Review",

abstract = "The increasing demand for aggregates for road construction and development has led to increased exploitation of mineral resources, resulting in their scarcity. This has an adverse effect on the environment as well as the cost of road development, especially when local aggregates are of poor quality and not suitable for road construction, requiring long-distance transportation or importation from another country. An approach that could be more cost-effective is the chemical stabilisation of locally available weak aggregates such as sandstone. This paper reviewed the most commonly used traditional and non-traditional additives for the stabilisation of road aggregate layers. The literature review focused on the type of soil for which each additive is best suited, the binding mechanism involved and the advantages and limitations of using each additive for soil stabilisation. It was found that the majority of the existing literature had focused on the chemical stabilisation of conventional road materials and demolition and waste aggregates for use in pavement base and/or subbase layers, but only a few looked into sandstone chemical stabilisation. Sandstone aggregate investigations have been limited to either cement and/or polymer stabilisation for road aggregate layers or cement concrete mixtures for building construction. As a result, this paper revealed a knowledge gap regarding the strength development of sandstone road aggregate layers after stabilisation with fly ash and lime, either separately or in combination, which is predominantly measured in terms of the unconfined compressive strength, indirect tensile strength, and California Bearing Ratio. Future research to address the gap in knowledge will provide insight into a potentially cost-effective alternative and sustainable road construction by utilising locally available sandstone aggregate and fly ash waste material.",

keywords = "Sandstones, aggregates, soil stabilisation, cement, lime, polymer, fly ash, pavement, base, subbase",

author = "Amalina Ali and Zahran, {Elsaid M.M.} and Tan, {Soon Jian} and Nurul Hasan",

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Ali, A, Zahran, EMM, Tan, SJ & Hasan, N 2023, Chemical stabilisation of sandstone road aggregate layers: a literature review: A Literature Review. in MY Ali, RR Karri, S Shams, R Rosli, EKA Rahman & R Singh (eds), 8th Brunei International Conference on Engineering and Technology 2021. 1 edn, vol. 2643, 030015, AIP Conference Proceedings, vol. 2643, American Institute of Physics Inc., 8th Brunei International Conference on Engineering and Technology 2021, BICET 2021, Bandar Seri Begawan, Brunei Darussalam, 8/11/21. https://doi.org/10.1063/5.0110713

Chemical stabilisation of sandstone road aggregate layers: a literature review: A Literature Review. / Ali, Amalina; Zahran, Elsaid M.M.; Tan, Soon Jian et al.
8th Brunei International Conference on Engineering and Technology 2021. ed. / Mohammad Yeakub Ali; Rama Rao Karri; Shahriar Shams; Roslynna Rosli; Ena Kartina Abdul Rahman; Ramesh Singh. Vol. 2643 1. ed. American Institute of Physics Inc., 2023. 030015 (AIP Conference Proceedings; Vol. 2643).

Research output: Chapter in Book/Conference proceeding › Conference contribution › peer-review

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N2 - The increasing demand for aggregates for road construction and development has led to increased exploitation of mineral resources, resulting in their scarcity. This has an adverse effect on the environment as well as the cost of road development, especially when local aggregates are of poor quality and not suitable for road construction, requiring long-distance transportation or importation from another country. An approach that could be more cost-effective is the chemical stabilisation of locally available weak aggregates such as sandstone. This paper reviewed the most commonly used traditional and non-traditional additives for the stabilisation of road aggregate layers. The literature review focused on the type of soil for which each additive is best suited, the binding mechanism involved and the advantages and limitations of using each additive for soil stabilisation. It was found that the majority of the existing literature had focused on the chemical stabilisation of conventional road materials and demolition and waste aggregates for use in pavement base and/or subbase layers, but only a few looked into sandstone chemical stabilisation. Sandstone aggregate investigations have been limited to either cement and/or polymer stabilisation for road aggregate layers or cement concrete mixtures for building construction. As a result, this paper revealed a knowledge gap regarding the strength development of sandstone road aggregate layers after stabilisation with fly ash and lime, either separately or in combination, which is predominantly measured in terms of the unconfined compressive strength, indirect tensile strength, and California Bearing Ratio. Future research to address the gap in knowledge will provide insight into a potentially cost-effective alternative and sustainable road construction by utilising locally available sandstone aggregate and fly ash waste material.

AB - The increasing demand for aggregates for road construction and development has led to increased exploitation of mineral resources, resulting in their scarcity. This has an adverse effect on the environment as well as the cost of road development, especially when local aggregates are of poor quality and not suitable for road construction, requiring long-distance transportation or importation from another country. An approach that could be more cost-effective is the chemical stabilisation of locally available weak aggregates such as sandstone. This paper reviewed the most commonly used traditional and non-traditional additives for the stabilisation of road aggregate layers. The literature review focused on the type of soil for which each additive is best suited, the binding mechanism involved and the advantages and limitations of using each additive for soil stabilisation. It was found that the majority of the existing literature had focused on the chemical stabilisation of conventional road materials and demolition and waste aggregates for use in pavement base and/or subbase layers, but only a few looked into sandstone chemical stabilisation. Sandstone aggregate investigations have been limited to either cement and/or polymer stabilisation for road aggregate layers or cement concrete mixtures for building construction. As a result, this paper revealed a knowledge gap regarding the strength development of sandstone road aggregate layers after stabilisation with fly ash and lime, either separately or in combination, which is predominantly measured in terms of the unconfined compressive strength, indirect tensile strength, and California Bearing Ratio. Future research to address the gap in knowledge will provide insight into a potentially cost-effective alternative and sustainable road construction by utilising locally available sandstone aggregate and fly ash waste material.

KW - Sandstones

KW - aggregates

KW - soil stabilisation

KW - cement

KW - lime

KW - polymer

KW - fly ash

KW - pavement

KW - base

KW - subbase

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PB - American Institute of Physics Inc.

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ER -

Ali A, Zahran EMM, Tan SJ, Hasan N. Chemical stabilisation of sandstone road aggregate layers: a literature review: A Literature Review. In Ali MY, Karri RR, Shams S, Rosli R, Rahman EKA, Singh R, editors, 8th Brunei International Conference on Engineering and Technology 2021. 1 ed. Vol. 2643. American Institute of Physics Inc. 2023. 030015. (AIP Conference Proceedings). doi: 10.1063/5.0110713

Chemical stabilisation of sandstone road aggregate layers: a literature review: A Literature Review

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