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Original Article
Investigation on Strength and Durability Properties of High-Volume Fly Ash Cement Concrete
Ramamohana Reddy Bellum1
Govind Dammu2
Venkata Sai Mani Karthikeya Govada3
Rachel Gurrala4
Kusuma Naga Jyothi Kola5
1Assistant Professor, Department of Civil Engineering, Aditya University, Surampalem, Andhra Pradesh, India. 2345UG Students, Department of Civil Engineering, Aditya University, Surampalem, Andhra Pradesh, India.
Published Online: May-June 2025
Pages: 117-125
Cite this article
↗ https://www.doi.org/10.59256/ijrtmr.20250503014
References
1. IS 10262:2009, "Guide for Concrete Mix Design Proportioning?"
2. IS 456:2000, "Code of Practice for Plain and Reinforced Concrete?"
3. Malhotra VM. Introduction: sustainable development and concrete technology. Concrete Int 2002.
4. Hongsa Power Company Limited (HPC), “Fly Ash Sales to Flow from Lignite Plant,” 2011 [Online]
5. R.M. Andrew, Global CO2 emissions from cement production, Centre for International Climate Research. Hydrol. Earth Sci. Syst. 2, 2069
(2017)
6. Vaishnavi, M.; Kanta Rao, M. Durability of High Volume Flyash Concrete; Matsagar, V., Ed.; Springer: New Delhi, India, 2015
7. Donatello, S.; Kuenzel, C.; Palomo, A.; Fernández-Jiménez, A. High temperature resistance of a very high-volume fly ash cement paste.
Cem. Concr. Compos. 2014
8. Hemalatha, T.; Ramaswamy, A. A review on fly ash characteristics—towards promoting high volume utilization in developing sustainable
concrete. J. Clean. Prod. 2017, 147, 546–559.
9. Swathi, V.; Asadi, S.S. An experimental investigation on mechanical, durability and Microstructural Properties of high-volume fly ash-
based concrete. J. Build. Pathol. Rehabil. 2022.
10. American Society for Testing and Materials, Building Standards. Available online: https://www.astm.org/products-services/standards-
and-publications/standards/building-standards.html (accessed on 25 November 2023).
11. Myadaraboina, H.; Law, D.; Patanikuni, I. Very high-volume fly ash concrete utilizing microash and hydrated lime, with silica fume. Adv.
Cem. Res. 2022.
12. Gunasekara, C.; Law, D.W.; Setunge, S. Design of ternary blend high-volume fly ash concrete mixes using hydrated lime. In Proceedings
of the 6th International Conference on Durability of Concrete Structures, ICDCS 2018, Leeds, UK, 18–20 July 2018.
13. Alaka, H.A.; Oyedele, L.O. High volume fly ash concrete: The practical impact of using superabundant dose of high range water reducer.
J. Build. Eng. 2016.
14. Kumar,S.; Rai, B. A review of durability properties of SCC with high volume fly Ash. Int. J. Civ. Eng. Technol. 2018.
15. Baert, G.; Poppe, A.-M.; De Belie, N. Strength and durability of high-volume fly ash concrete. Struct. Concr. 2008.
16. Kan,L.; Shi, R.; Zhu, J. Effect of fineness and calcium content of fly ash on the mechanical properties of Engineered Cementitious
Composites (ECC). Constr. Build. Mater. 2019.
17. Jayalin, D.; Vellingiri, N.; Janaki Raman, S. Experimental research on durability properties of high-volume fly ash concrete with
polypropylene fibre. Int. J. Innov. Technol. Explor. Eng. 2019.
18. Babalu, R.; Anil, A.; Sudarshan, K.; Amol, P. Compressive strength, flexural strength, and durability of high-volume fly ash concrete.
Innov. Infrastruct. Solut. 2023.
2. IS 456:2000, "Code of Practice for Plain and Reinforced Concrete?"
3. Malhotra VM. Introduction: sustainable development and concrete technology. Concrete Int 2002.
4. Hongsa Power Company Limited (HPC), “Fly Ash Sales to Flow from Lignite Plant,” 2011 [Online]
5. R.M. Andrew, Global CO2 emissions from cement production, Centre for International Climate Research. Hydrol. Earth Sci. Syst. 2, 2069
(2017)
6. Vaishnavi, M.; Kanta Rao, M. Durability of High Volume Flyash Concrete; Matsagar, V., Ed.; Springer: New Delhi, India, 2015
7. Donatello, S.; Kuenzel, C.; Palomo, A.; Fernández-Jiménez, A. High temperature resistance of a very high-volume fly ash cement paste.
Cem. Concr. Compos. 2014
8. Hemalatha, T.; Ramaswamy, A. A review on fly ash characteristics—towards promoting high volume utilization in developing sustainable
concrete. J. Clean. Prod. 2017, 147, 546–559.
9. Swathi, V.; Asadi, S.S. An experimental investigation on mechanical, durability and Microstructural Properties of high-volume fly ash-
based concrete. J. Build. Pathol. Rehabil. 2022.
10. American Society for Testing and Materials, Building Standards. Available online: https://www.astm.org/products-services/standards-
and-publications/standards/building-standards.html (accessed on 25 November 2023).
11. Myadaraboina, H.; Law, D.; Patanikuni, I. Very high-volume fly ash concrete utilizing microash and hydrated lime, with silica fume. Adv.
Cem. Res. 2022.
12. Gunasekara, C.; Law, D.W.; Setunge, S. Design of ternary blend high-volume fly ash concrete mixes using hydrated lime. In Proceedings
of the 6th International Conference on Durability of Concrete Structures, ICDCS 2018, Leeds, UK, 18–20 July 2018.
13. Alaka, H.A.; Oyedele, L.O. High volume fly ash concrete: The practical impact of using superabundant dose of high range water reducer.
J. Build. Eng. 2016.
14. Kumar,S.; Rai, B. A review of durability properties of SCC with high volume fly Ash. Int. J. Civ. Eng. Technol. 2018.
15. Baert, G.; Poppe, A.-M.; De Belie, N. Strength and durability of high-volume fly ash concrete. Struct. Concr. 2008.
16. Kan,L.; Shi, R.; Zhu, J. Effect of fineness and calcium content of fly ash on the mechanical properties of Engineered Cementitious
Composites (ECC). Constr. Build. Mater. 2019.
17. Jayalin, D.; Vellingiri, N.; Janaki Raman, S. Experimental research on durability properties of high-volume fly ash concrete with
polypropylene fibre. Int. J. Innov. Technol. Explor. Eng. 2019.
18. Babalu, R.; Anil, A.; Sudarshan, K.; Amol, P. Compressive strength, flexural strength, and durability of high-volume fly ash concrete.
Innov. Infrastruct. Solut. 2023.
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