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Research Article
Optimization and Evaluation of Alkali Activated Fly Ash for Lightweight Aggregate Production
Suprabha Rani Panda1
Suraj Kumar Chand2
Bhavyavesh Sahu3
Prasant Kumar Sahu4
1Assistant Professor Department of Civil Engineering, Government Engineering College, Raipur, Chhattisgarh, India. 2,3Assistant Professor Department of Mechanical Engineering, Government Engineering College, Raipur, Chhattisgarh, India. 4Assistant Professor Department of Mechanical Engineering, JSGEC, Jagdalpur, India
Published Online: July-August 2024
Pages: 01-05
Cite this article
↗ https://www.doi.org/10.59256/ijsreat.20240404001
References
1. Mohammad Almadani, Rafiza Abd Razak, Mohd Mustafa Al Bakri Abdullah,and Rosnita Mohamed. “Geopolymer-based artificial
aggregates: A review on methods of producing, properties, and improving techniques”. In: Materials 15.16 (2022), p. 5516.
2. R Wasserman and A Bentur. “Effect of lightweight fly ash aggregate mi- crostructure on the strength of concretes”. In: Cement and concrete
research 27.4 (1997), pp. 525–537.
3. KN Shivaprasad and BB Das. “Determination of optimized geopolymerization factors on the properties of pelletized fly ash aggregates”. In:
Construction and Building Materials 163 (2018), pp. 428–437.
4. Mehmet Geso˘glu, Turan Özturan, and Erhan Güneyisi. “Effects of fly ash properties on characteristics of cold-bonded fly ash lightweight
aggregates” In: Construction and Building Materials 21.9 (2007), pp. 1869–1878.
5. Enrique Del Rey Castillo, Nasser Almesfer, Opinder Saggi, and Jason M Ingham. “Light-weight concrete with artificial aggregate
manufactured from plastic waste”. In: Construction and Building Materials 265 (2020), p. 120199.
6. Manu S Nadesan and P Dinakar. “Structural concrete using sintered flyash lightweight a.ggregate: A review”. In: Construction and
Building Materials 154 (2017), pp. 928–944.
7. Hilda Yuliana, IDM Karyawan, and Suryawan Murtiadi. “The effect of slope granulator on the characteristic of artificial geopolymer
aggregate used in pavement”. In: Journal of Engineering Science and Technology 14.3 (2019), pp. 1466–1481.
8. Pengfei Ren, Tung-Chai Ling, and Kim Hung Mo. “Recent advances in artificial aggregate production”. In: Journal of cleaner production
291 (2021),p. 125215.
9. Xiao Zhang, Chunxiang Qian, and Dengmin Xie. “Preparation of artificial aggregate using waste concrete powder and CO2 fixed by
microorganisms”. In: Clean Technologies and Environmental Policy 24.5 (2022), pp. 1453–1467.
10. S Shanmugasundaram, S Jayanthi, R Sundararajan, C Umarani, and K Jagadeesan. “Study on utilization of fly ash aggregates in concrete”.
In: ModernApplied Science 4.5 (2010), p. 44.49
11. BB Adhitya, A Saggaff, S Saloma, and H Hanafiah. “Manufacture of Geopoly- mer Artificial Aggregates by Pelletization and Crushing
Processes”. In: Civil Engineering and Architecture 11.1 (2023), pp. 13–21.
12. Wasan I Khalil, Hisham K Ahmed, and Zainab M Hussein. “Properties of artificial and sustainable lightweight aggregate”. In: Proceedings
of the 17th International Conference on Building Science and Engineering, Berlin, Ger- many. Vol. 17. 9. 2015, pp. 633–637.
13. HP Satpathy, SK Patel, and AN Nayak. “Development of sustainable lightweightconcrete using fly ash cenosphere and sintered fly ash
aggregate”. In: Construction and Building Materials 202 (2019), pp. 636–655.
14. YG Barabanshchikov, KY Usanova, Sukhrob Umarov, and Mirsoxibjon Sal-imbayev. “Properties of concrete containing high-calcium fly ash
artificial aggregate”. In: E3S Web of Conferences. Vol. 401. EDP Sciences. 2023, p. 03016.
15. Pejman Keikhaei Dehdezi, Savas Erdem, and Marva Angela Blankson. “Physico-mechanical, microstructural and dynamic properties of
newly developed artificial fly ash based lightweight aggregate–Rubber concrete composite”. In:Composites Part B: Engineering 79 (2015),
pp. 451–455.
16. A Firda, A Saggaff, H Hanafiah, and S Saloma. “Experimental study of artificial lightweight aggregates using coal fly ash and epoxy resin”.
In: En- gineering Solid Mechanics 11.4 (2023), pp. 369–278.
17. JMJM Bijen. “Manufacturing processes of artificial lightweight aggregates from fly ash”. In: International Journal of Cement Composites
and Lightweight Concrete 8.3 (1986), pp. 191–199.
18. George K George and P Revathi. “Production and Utilisation of Artificial Coarse Aggregate in Concrete-a Review”. In: IOP Conference
Series: Materials Science and Engineering. Vol. 936. 1. IOP Publishing. 2020, p. 012035.
19. Chamila Gunasekara, Sujeeva Setunge, David W Law, Nick Willis, and Trevor Burt. “Engineering properties of geopolymer aggregate
concrete”. In: Journal of Materials in Civil Engineering 30.11 (2018), p. 04018299.
aggregates: A review on methods of producing, properties, and improving techniques”. In: Materials 15.16 (2022), p. 5516.
2. R Wasserman and A Bentur. “Effect of lightweight fly ash aggregate mi- crostructure on the strength of concretes”. In: Cement and concrete
research 27.4 (1997), pp. 525–537.
3. KN Shivaprasad and BB Das. “Determination of optimized geopolymerization factors on the properties of pelletized fly ash aggregates”. In:
Construction and Building Materials 163 (2018), pp. 428–437.
4. Mehmet Geso˘glu, Turan Özturan, and Erhan Güneyisi. “Effects of fly ash properties on characteristics of cold-bonded fly ash lightweight
aggregates” In: Construction and Building Materials 21.9 (2007), pp. 1869–1878.
5. Enrique Del Rey Castillo, Nasser Almesfer, Opinder Saggi, and Jason M Ingham. “Light-weight concrete with artificial aggregate
manufactured from plastic waste”. In: Construction and Building Materials 265 (2020), p. 120199.
6. Manu S Nadesan and P Dinakar. “Structural concrete using sintered flyash lightweight a.ggregate: A review”. In: Construction and
Building Materials 154 (2017), pp. 928–944.
7. Hilda Yuliana, IDM Karyawan, and Suryawan Murtiadi. “The effect of slope granulator on the characteristic of artificial geopolymer
aggregate used in pavement”. In: Journal of Engineering Science and Technology 14.3 (2019), pp. 1466–1481.
8. Pengfei Ren, Tung-Chai Ling, and Kim Hung Mo. “Recent advances in artificial aggregate production”. In: Journal of cleaner production
291 (2021),p. 125215.
9. Xiao Zhang, Chunxiang Qian, and Dengmin Xie. “Preparation of artificial aggregate using waste concrete powder and CO2 fixed by
microorganisms”. In: Clean Technologies and Environmental Policy 24.5 (2022), pp. 1453–1467.
10. S Shanmugasundaram, S Jayanthi, R Sundararajan, C Umarani, and K Jagadeesan. “Study on utilization of fly ash aggregates in concrete”.
In: ModernApplied Science 4.5 (2010), p. 44.49
11. BB Adhitya, A Saggaff, S Saloma, and H Hanafiah. “Manufacture of Geopoly- mer Artificial Aggregates by Pelletization and Crushing
Processes”. In: Civil Engineering and Architecture 11.1 (2023), pp. 13–21.
12. Wasan I Khalil, Hisham K Ahmed, and Zainab M Hussein. “Properties of artificial and sustainable lightweight aggregate”. In: Proceedings
of the 17th International Conference on Building Science and Engineering, Berlin, Ger- many. Vol. 17. 9. 2015, pp. 633–637.
13. HP Satpathy, SK Patel, and AN Nayak. “Development of sustainable lightweightconcrete using fly ash cenosphere and sintered fly ash
aggregate”. In: Construction and Building Materials 202 (2019), pp. 636–655.
14. YG Barabanshchikov, KY Usanova, Sukhrob Umarov, and Mirsoxibjon Sal-imbayev. “Properties of concrete containing high-calcium fly ash
artificial aggregate”. In: E3S Web of Conferences. Vol. 401. EDP Sciences. 2023, p. 03016.
15. Pejman Keikhaei Dehdezi, Savas Erdem, and Marva Angela Blankson. “Physico-mechanical, microstructural and dynamic properties of
newly developed artificial fly ash based lightweight aggregate–Rubber concrete composite”. In:Composites Part B: Engineering 79 (2015),
pp. 451–455.
16. A Firda, A Saggaff, H Hanafiah, and S Saloma. “Experimental study of artificial lightweight aggregates using coal fly ash and epoxy resin”.
In: En- gineering Solid Mechanics 11.4 (2023), pp. 369–278.
17. JMJM Bijen. “Manufacturing processes of artificial lightweight aggregates from fly ash”. In: International Journal of Cement Composites
and Lightweight Concrete 8.3 (1986), pp. 191–199.
18. George K George and P Revathi. “Production and Utilisation of Artificial Coarse Aggregate in Concrete-a Review”. In: IOP Conference
Series: Materials Science and Engineering. Vol. 936. 1. IOP Publishing. 2020, p. 012035.
19. Chamila Gunasekara, Sujeeva Setunge, David W Law, Nick Willis, and Trevor Burt. “Engineering properties of geopolymer aggregate
concrete”. In: Journal of Materials in Civil Engineering 30.11 (2018), p. 04018299.
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