Investigation Study of Additional Water's Effect on Ash-Based Geopolymer Concrete

Authors

  • Naufal Fitrahaldi University of Tanjungpura
  • Herwani Herwani University of Tanjungpura
  • Faisal Faisal University of Tanjungpura

DOI:

https://doi.org/10.26418/jts.v25i1.88404

Keywords:

Eco-Friendly Concrete, Extra Water Variation, Solution Molarity, Optimization

Abstract

Geopolymer concrete is a form of concrete where the traditional Portland cement binder is substituted with alternative materials rich in silica and aluminum. Cement production involves a high-temperature combustion process, reaching 1.500 °C, which produces large amounts of carbon dioxide (COâ‚‚) emissions, roughly equivalent to the amount of cement produced. Due to the significant environmental impact of traditional cement production, there has been a growing emphasis on developing geopolymer concrete that uses fly ash as an alternative binder in concrete mixtures. This study adopts an experimental approach to fabricate geopolymer concrete specimens incorporating fly ash. The study involves testing to assess both the physical and mechanical properties. The findings indicated a slump range of 16-28 cm, an average density ranging from 2.274,501 Kg/m ³ to 2.322,177 Kg/m ³, a 28-day compressive strength between 11,247 MPa and 15,915 MPa, split tensile strength varying from 1,179 MPa to 1,721 MPa, and elasticity modulus between 2.003,573 MPa and 3.417,811 MPa. The optimal variation was achieved by adding 0% water. Thus, geopolymer concrete incorporating fly ash holds considerable promise as an environmentally sustainable substitute for traditional cement-based binders.

References

Almutairi, A. L., Tayeh, B. A., Adesina, A., Isleem, H. F., & Zeyad, A. M. (2021). Potential Applications of Geopolymer Concrete in Construction: A Review. Case Studies in Construction Materials, 15, e00733.

Alomayri, T. (2019). Experimental Study of The Microstructural and Mechanical Properties of Geopolymer Paste with Nano Material (Al2O3). Journal of Building Engineering, 25, 100788.

Amin, M., & Tayeh, B. A. (2020). Investigating The Mechanical and Microstructure Properties of Fibre-Reinforced Lightweight Concrete Under Elevated Temperatures. Case Studies in Construction Materials, 13, e00459.

Amran, M., Al-Fakih, A., Chu, S. H., Fediuk, R., Haruna, S., Azevedo, A., & Vatin, N. (2021). Long-Term Durability Properties of Geopolymer Concrete: An In-Depth Review. Case Studies in Construction Materials, 15, e00661.

Amran, M., Debbarma, S., & Ozbakkaloglu, T. (2021). Fly Ash-Based Eco-Friendly Geopolymer Concrete: A Critical Review of The Long-Term Durability Properties. Construction and Building Materials, 270, 121857.

Amran, Y. M., Alyousef, R., Alabduljabbar, H., & El-Zeadani, M. (2020). Clean Production and Properties of Geopolymer Concrete; A Review. Journal of Cleaner Production, 251, 119679.

Ekaputri, J. J., Ruitan, X. D. E. A., Petrus, H. T. B. M., Anda, M., Purbawinasta, L. H., Laory, I., Setiamarga, D. H. E., Chijiwa, N., & Fujiyama, C. (2024). Utilization of High-Volume Fly Ash in Pervious Concrete Mixtures for Mangrove Conservation. Resources, Conservation & Recycling Advances, 21, 200204.

Gumalang, S., Wallah, S. E., & Sumajouw, M. D. J. (2016). Pengaruh Kadar Air dan Superplasticizer pada Kekuatan dan Kelecakan Beton Geopolimer Memadat Sendiri Berbasis Abu Terbang. Jurnal Ilmiah Media Engineering, 6(3), 574-582.

Hamada, H. M., Alya’a, A., Yahaya, F. M., Muthusamy, K., Tayeh, B. A., & Humada, A. M. (2020). Effect of High-Volume Ultrafine Palm Oil Fuel Ash on The Engineering and Transport Properties of Concrete. Case Studies in Construction Materials, 12, e00318.

Hardjasaputra, H., & Cornelia, M. (2019). Experimental Study of Effect Additional Water on High Performance Geopolymer Concrete. In MATEC Web of Conferences (Vol. 270, p. 01004). EDP Sciences.

Karayannis, V. G., Moustakas, K. G., Baklavaridis, A. N., & Domopoulou, A. E. (2018). Sustainable Ash-Based Geopolymers. Chemical Engineering Transactions, 63, 505–510.

Li, X., Bai, C., Qiao, Y., Wang, X., Yang, K., & Colombo, P. (2022). Preparation, Properties, and Applications of Fly Ash-Based Porous Geopolymers: A Review. Journal of Cleaner Production, 359, 132043.

MikulÄić, H., KlemeÅ¡, J. J., Vujanović, M., Urbaniec, K., & Duić, N. (2016). Reducing Greenhouse Gasses Emissions by Fostering the Deployment of Alternative Raw Materials and Energy Sources in The Cleaner Cement Manufacturing Process. Journal of cleaner production, 136, 119-132.

Okoye, F. N., Prakash, S., & Singh, N. B. (2017). Durability of Fly Ash Based Geopolymer Concrete in The Presence of Silica Fume. Journal of Cleaner Production, 149, 1062-1067.

Pane, I., Imran, I., & Budiono, B. (2018). Compressive Strength of Fly Ash-Based Geopolymer Concrete with A Variable of Sodium Hydroxide (NaOH) Solution Molarity. In MATEC Web of Conferences, 147, 01004. EDP Sciences.

Ravat, D., Shah, S., & Dave, S. (2017). Utilization of Red Mud in Geopolymer Concrete-A Review. Int. J. Adv. Eng. Res. Dev, 4, 738–741.

Saffuan, W. A., Muthusamy, K., Salleh, N. M., & Nordin, N. (2017). Properties of Concrete Containing Ground Palm Oil Fuel Ash as Fine Aggregate Replacement. In IOP Conference Series: Materials Science and Engineering, 264(1), 012008. IOP Publishing.

Setiawati, M. (2018). Fly Ash Sebagai Bahan Pengganti Semen pada Beton. Seminar Nasional Sains dan Teknologi, 17, 1–8.

Shahidan, S., Tayeh, B. A., Jamaludin, A. A., Bahari, N. A. A. S., Mohd, S. S., Ali, N. Z., & Khalid, F. S. (2017). Physical and Mechanical Properties of Self-Compacting Concrete Containing Superplasticizer and Metakaolin. In IOP Conference Series: Materials Science and Engineering, 271(1), 012004. IOP Publishing.

Tayeh, B. A., Zeyad, A. M., Agwa, I. S., & Amin, M. (2021). Effect of Elevated Temperatures on Mechanical Properties of Lightweight Geopolymer Concrete. Case Studies in Construction Materials, 15, e00673.

Yildizel, S. A., Tayeh, B. A., & Calis, G. (2020). Experimental and Modelling Study of Mixture Design Optimisation of Glass Fibre-Reinforced Concrete with Combined Utilisation of Taguchi and Extreme Vertices Design Techniques. Journal of Materials Research and Technology, 9(2), 2093-2106.

Zeyad, A. M., Johari, M. A. M., Alharbi, Y. R., Abadel, A. A., Amran, Y. M., Tayeh, B. A., & Abutaleb, A. (2021). Influence of Steam Curing Regimes on The Properties of Ultrafine POFA-Based High-Strength Green Concrete. Journal of Building Engineering, 38, 102204.

Zhao, H., Sun, W., Wu, X., & Gao, B. (2015). The Properties of The Self-Compacting Concrete with Fly Ash and Ground Granulated Blast Furnace Slag Mineral Admixtures. Journal of Cleaner Production, 95, 66–74.

Downloads

Published

2025-03-07

Issue

Section

Vol 25, No 1 (2025): Vol 25, No 1 (2025): JURNAL TEKNIK SIPIL EDISI FEBRUARI 2025