1 Department of Civil and Architectural Engineering, Faculty of Engineering and Technology (FET), University of Buea (UB), Buea, Cameroon.
2 Division of Scientific Research and Innovations, African Scientific Association for Innovative and Entrepreneurship (ASAIE), Yaounde, Cameroon.
3 Department of Civil Engineering, Institut Universitaire de la Cote (IUC), Douala, Cameroun.
4 Laboratory of Structures and Mechanics of Materials (LaS2M), Polytechnic School of Lomé (EPL), University of Lomé-Togo.
5 Research, Innovation and Development Structure (SRID), FORMATEC Institute, Lomé, Togo.
World Journal of Advanced Research and Reviews, 2026, 29(01), 430-438
Article DOI: 10.30574/wjarr.2026.29.1.4304
Received on 28 November 2025; revised on 05 January 2026; accepted on 07 January 2026
Ash from cassava peeling, a byproduct of its processing, is rich in pozzolanic properties, making it a promising material for improving concrete durability. This study evaluates the physical (workability), hygrometric (water absorption), and mechanical (compressive and flexural strength) properties of concretes in which cement is replaced by ash (0%, 5%, and 10%) to assess the performance of cementitious elements containing ash. The results indicate that incorporating up to 10% ash reduces the compressive and flexural strength of the concrete by approximately 11.67% and 11.36%, respectively. The concrete also becomes 20.58% more porous, with a 41.18% reduction in its consistency (slump). Strength, water absorption, and slump follow a second-degree polynomial distribution as a function of ash content and concrete age. These results contribute to the development of environmentally friendly building materials suitable for structural elements where strength is less critical. However, these concretes are very useful for constructing drainage systems and for production methods requiring rapid demolding.
Cassava peel ash; Pozzolanic properties; Cement replacement; Sustainable concrete; Mechanical properties
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Cyrille Tchuinte MOYOPO, Clautaire Mwebi EKENGOUE, Kossi Bollanigni AMEY, Willy KENOU and Alain Narcisse Sieyapdjie FEUMOE. Valorization of agricultural waste: Pozzolanic properties of cassava peel ash and effects on the durability of cementitious materials. World Journal of Advanced Research and Reviews, 2026, 29(01), 430-438. Article DOI: https://doi.org/10.30574/wjarr.2026.29.1.4304.
Copyright © 2025 Author(s) retain the copyright of this article. This article is published under the terms of the Creative Commons Attribution Liscense 4.0