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Evaluating the performance of oyster shells as sustainable coarse aggregate in concrete grade 25 (C25) production

##article.authors##

  • Gabriel Kwame Sipi Takyi Mechanical Engineering Department, Ho Technical University. P.O. Box 217, Ho, Ghana. https://orcid.org/0000-0002-6787-7523
  • John Kwame Tawiah Civil Engineering Department, Ho Technical University. P.O. Box 217, Ho, Ghana.
  • Laudina Gloria Mends Civil Engineering Department, Ho Technical University. P.O. Box 217, Ho, Ghana.
  • Emmanuel Adu-Afari Civil Engineering Department, Ho Technical University. P.O. Box 217, Ho, Ghana.
  • Charles Vicku Industrial Art Department, Ho Technical University. P.O. Box 217, Ho, Ghana.
  • Maxwell Selase Akple Mechanical Engineering Department, Ho Technical University. P.O. Box 217, Ho, Ghana.
  • Franklin Liggie-Kudono Civil Engineering Department, Ho Technical University. P.O. Box 217, Ho, Ghana.

DOI:

https://doi.org/10.31224/7112

Keywords:

Concrete, grading analysis, Workability, Compressive strength, Oyster shells

Abstract

This study assesses concrete using crushed granite (CC) and oyster shells (OS) as aggregates. Grading analysis confirmed well-graded distributions, with sand's fineness modulus (2.52) meeting British Standard (BS 812-103.1). OS concrete exhibited a higher water-cement ratio (0.67 vs. 0.55 design) due to greater water absorption (1.8% vs. 0.4% for CC). However, it was still within the BS 8500:1 limit. Crushed granite achieved a 70 mm slump, while OS recorded zero. This is attributed to its semi-elliptical shape, reducing grout availability. Both materials met the aggregate impact value (AIV), Los Angeles Abrasion value (LAAV), and specific gravity standards. At 28 days, compressive strength was 25.7 MPa for CC and 17.3 MPa for OS. The oyster shell failed to meet the 25 MPa design strength even after 36 days of curing. This could be attributed to the geometry and water-cement ratio limiting its performance, and optimization of the concrete is required.

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Author Biography

Gabriel Kwame Sipi Takyi, Mechanical Engineering Department, Ho Technical University. P.O. Box 217, Ho, Ghana.

Ing. Gabriel Kwame Sipi Takyi is a Senior Professional Engineer (Ghana Institution of Engineering) and a Lecturer in the Department of Mechanical Engineering, Ho Technical University, Ho, Ghana.

I am currently a PhD candidate at Tecnológico de Monterrey and will graduate in December 2026.

I was a visiting Research Scholar at Massachusetts Institute of Technology (MIT), Cambridge, USA.

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Posted

2026-05-21

License

Copyright (c) 2026 Gabriel Kwame Sipi Takyi, John Kwame Tawiah, Laudina Gloria Mends, Emmanuel Adu-Afari, Charles Vicku, Maxwell Selase Akple, Franklin Liggie-Kudono

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.