Characterization of Geopolymer Binder Using Sidoarjo Mud

Rizal Syahyadi; Amir Fauzi; Herri Mahyar; Syukri Syukri; Mulizar Mulizar

doi:10.4028/www.scientific.net/SSP.305.91

Paper Titles

Preparation of Rutile TiO₂ Film by Low Temperature Hydrothermal
p.65

Corrosion of the Materials in the Electrical Connectors
p.70

Double Perovskite Bi₂FeCrO₆ Thin Films for Photovoltaics
p.77

A Comparison on Column Reinforcement with Conventional Concrete and Carbon Fiber / Epoxy Exposed to Compression Loading
p.85

Characterization of Geopolymer Binder Using Sidoarjo Mud
p.91

Eco-Friendly Thermal Insulation Structures Based on Natural and Biodegradable Materials for Environmentally Durable Development
p.97

Comparison and Transmission Studies of Commercial Glass and Laminated Glass with PDLC Film for Heat Resistant and Other Building Structure Applications
p.103

Effect of Ultrasonic Surface Rolling Process Parameters on Surface Properties of S30408 Austenitic Stainless Steel
p.111

Effect of Coolant Type on Surface Roughness and RSM Modelling in Single-Point Diamond Turning of RSA443 Optical Aluminum
p.117

HomeSolid State PhenomenaSolid State Phenomena Vol. 305Characterization of Geopolymer Binder Using...

Characterization of Geopolymer Binder Using Sidoarjo Mud

Abstract:

Sidoarjo mudflow (SM) is a new cementitious material originating from a natural disaster of volcano mudflow in Porong, Sidoarjo, East Java, Indonesia. Some investigations mentioned that the material of SM is rich in Si, Fe, Al and Ca content. The content of Si and Al were considered to be able to generate the gel of Si-O-Si and Si-O-Al in the geopolymer binder. However, the feasibility of SM material as an alternative binder in geopolymer still needs to be investigated in this study. The production of SM material was calcined at the temperature of 400°C up to 900°C which the optimum calcination temperature was about 700°C. This material was called as volcano meta ash (VMA). The analysis of XRD showed that the geopolymer binder of VMA, FA_VMA, and FA had the crystalline in quartz, mullite, magnetite, hematite, and rutile. The analysis of FTIR described that the geopolymer binder of VMA and FA_VMA had similar stretching in the gel of Si-O-Si and Si-O-Al to the geopolymer binder of FA. However, the stretching and bending of H-O-H in the geopolymer binder of VMA and FA_VMA were less than the geopolymer binder of FA. Finally, the analysis of SEM showed that the geopolymer binder of VMA has less concavity and more gel compared to the geopolymer of FA_VMA and FA.

You might also be interested in these eBooks

Manufacturing Sciences and Technologies X

View Preview

Info:

Periodical:

Solid State Phenomena (Volume 305)

Pages:

91-96

DOI:

https://doi.org/10.4028/www.scientific.net/SSP.305.91

Citation:

Cite this paper

Online since:

June 2020

Authors:

Rizal Syahyadi*, Amir Fauzi, Herri Mahyar, Syukri Syukri, Mulizar Mulizar

Keywords:

Calcination Temperature Level, FTIR, SEM/EDS, Sidoarjo Mud, XRD

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

* - Corresponding Author

References

[1] Malhotra, V.M., Making Concrete Greener, with Fly Ash. Concrete International. 21(5).

Google Scholar

[2] Davidovits, J., Geopolymer Cement a review 2013. 2013. 1-11.

Google Scholar

[3] F Nuruddin, M., et al., Evolution of geopolymer binders: a review. Vol. 133. 2016. 012052.

Google Scholar

[4] Davies, R.J., et al., Probabilistic longevity estimate for the LUSI mud volcano, East Java. Journal of the Geological Society, 2011. 168(2): pp.517-523.

DOI: 10.1144/0016-76492010-129

Google Scholar

[5] Nuruddin, M.F., et al., Sidoarjo Mud: A Potential Cement Replacement Material. Vol. 12. (2010).

Google Scholar

[6] Fauzi, A., et al., Study of Fly Ash Characterization as a Cementitious Material. Procedia Engineering, 2016. 148: pp.487-493.

DOI: 10.1016/j.proeng.2016.06.535

Google Scholar

[7] Razak, R.A., et al., Optimization of NaOH Molarity, LUSI Mud/Alkaline Activator, and Na2SiO3/NaOH Ratio to Produce Lightweight Aggregate-Based Geopolymer. International Journal of Molecular Sciences, 2015. 16(5): pp.11629-11647.

DOI: 10.3390/ijms160511629

Google Scholar