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The effect of adding rice husk ash (RHA) and calcined shell powder (CSP) on the properties of cement mortar

The effect of adding rice husk ash (RHA) and calcined shell powder (CSP) on the properties of cement mortar
The effect of adding rice husk ash (RHA) and calcined shell powder (CSP) on the properties of cement mortar

To enhance sustainability in the construction industry, incorporating rice husk ash (RHA) as a partial cement replacement is widely encouraged. Additionally, bio-shells, rich in CaCO₃, pose environmental challenges when improperly discarded, leading to pollution and negative impacts on surrounding communities. This study integrates the beneficial properties of these two waste materials for use in construction. While the effects of RHA on cementitious materials have been extensively studied, limited research has examined the combined influence of RHA and calcined shell powder (CSP) as a partial cement replacement. To explore their potential, RHA and CSP were blended in varying proportions to produce RHA-CSP cement mortar. Experimental results demonstrated that the R15S10 mix achieved the highest mechanical performance by optimizing the balance between pozzolanic reactivity and the filler effect. As hydration progressed, the pozzolanic reaction intensified under high pH conditions, increasing the C-S-H dehydration peak while reducing the CH decomposition peak. Additionally, the incorporation of CSP and RHA refined the pore structure and decreased overall porosity, enhancing mortar compactness. By utilizing these waste materials to create an optimized mix, this study supports the sustainable application of discarded shells and rice husks in construction.

C-S-H, Calcined shell powder, Composite cement, Pozzolanic reaction, Rice husk ash
2214-5095
Zhang, J.X.
6bad4e75-40e0-4ea3-866d-58c8018b225a
Guo, Y.T.
7a5c20a7-5de5-4e88-9519-93c9f1699eab
Zhuang, S.Y.
55e6c59b-fe55-4a6c-bbec-950b4cb1d03b
Lou, H.Q.
7135366c-ca2e-4674-b2b5-6579348c99cc
Li, Y.
86d13351-982d-46c3-9347-22794f647f86
Zhang, J.X.
6bad4e75-40e0-4ea3-866d-58c8018b225a
Guo, Y.T.
7a5c20a7-5de5-4e88-9519-93c9f1699eab
Zhuang, S.Y.
55e6c59b-fe55-4a6c-bbec-950b4cb1d03b
Lou, H.Q.
7135366c-ca2e-4674-b2b5-6579348c99cc
Li, Y.
86d13351-982d-46c3-9347-22794f647f86

Zhang, J.X., Guo, Y.T., Zhuang, S.Y., Lou, H.Q. and Li, Y. (2025) The effect of adding rice husk ash (RHA) and calcined shell powder (CSP) on the properties of cement mortar. Case Studies in Construction Materials, 22, [e04426]. (doi:10.1016/j.cscm.2025.e04426).

Record type: Article

Abstract

To enhance sustainability in the construction industry, incorporating rice husk ash (RHA) as a partial cement replacement is widely encouraged. Additionally, bio-shells, rich in CaCO₃, pose environmental challenges when improperly discarded, leading to pollution and negative impacts on surrounding communities. This study integrates the beneficial properties of these two waste materials for use in construction. While the effects of RHA on cementitious materials have been extensively studied, limited research has examined the combined influence of RHA and calcined shell powder (CSP) as a partial cement replacement. To explore their potential, RHA and CSP were blended in varying proportions to produce RHA-CSP cement mortar. Experimental results demonstrated that the R15S10 mix achieved the highest mechanical performance by optimizing the balance between pozzolanic reactivity and the filler effect. As hydration progressed, the pozzolanic reaction intensified under high pH conditions, increasing the C-S-H dehydration peak while reducing the CH decomposition peak. Additionally, the incorporation of CSP and RHA refined the pore structure and decreased overall porosity, enhancing mortar compactness. By utilizing these waste materials to create an optimized mix, this study supports the sustainable application of discarded shells and rice husks in construction.

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Accepted/In Press date: 18 February 2025
e-pub ahead of print date: 20 February 2025
Published date: 24 February 2025
Keywords: C-S-H, Calcined shell powder, Composite cement, Pozzolanic reaction, Rice husk ash

Identifiers

Local EPrints ID: 507762
URI: http://eprints.soton.ac.uk/id/eprint/507762
DOI: doi:10.1016/j.cscm.2025.e04426
ISSN: 2214-5095
PURE UUID: e8f09ce2-7edf-4bd0-87bd-465c22b17e5b
ORCID for Y. Li: ORCID iD orcid.org/0000-0002-2379-5497

Catalogue record

Date deposited: 06 Jan 2026 11:08
Last modified: 08 Jan 2026 03:27

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Contributors

Author: J.X. Zhang
Author: Y.T. Guo
Author: S.Y. Zhuang
Author: H.Q. Lou
Author: Y. Li ORCID iD

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