Synthesis of Sodium Silicate from Rice Husk Ash as an Activator to Produce Epoxy-Geopolymer Cement

Synthesis of Sodium Silicate from Rice Husk Ash as an Activator to Produce Epoxy-Geopolymer Cement

Rice husk ash (RHA), a byproduct of the rice industry, is the primary source of amorphous silica for producing sodium silicate solutions to replace standard commercial sodium silicate in geopolymer mixture design. The effect of various concentrations of NaOH used as an activator to produce epoxy-geo...

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Bibliographic Details
Main Authors: Abdullah (Author), Aprilia, S. (Author), Azimi, E.A (Author), Aziz, I.H (Author), Bakri, A.M.M.A (Author), Handayani, L. (Author), Qimyatussa'adah (Author), Rahim R. (Author), Rahmawati, C. (Author), Suhasto R.I.N (Author), Yudha R.G.P (Author)
Format: Article
Language:English
Published: IOP Publishing Ltd 2021
Subjects:
Amorphous silica
Cements
Compressive strength
Electric power transmission networks
Fly ash
Geopolymer cement
Geopolymer concrete
Geopolymer matrix
Geopolymerization
Geopolymers
High-calcium fly ash
Initial concentration
Inorganic polymers
NaOH concentration
Silica
Silicates
Smart power grids
Sodium hydroxide
Sodium silicate solutions
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Description
Summary:Rice husk ash (RHA), a byproduct of the rice industry, is the primary source of amorphous silica for producing sodium silicate solutions to replace standard commercial sodium silicate in geopolymer mixture design. The effect of various concentrations of NaOH used as an activator to produce epoxy-geopolymer cement was studied. Three initial concentrations of NaOH were used (8, 10, and 12M) to examine the optimum dissolution and formation of silica oligomers that can function as the activator during the geopolymerization. The result indicated the increase of NaOH concentration raises the silica yield strength. The silica yield found was 65.84%, 70.53% and 72.06% on NaOH use of 8, 10, 12 M, respectively. IR-spectra results showed silica functional groups and the sodium silicate were successfully synthesized. The IR spectra indicated the appearance of hydroxyl bonds, which strengthen the geopolymer matrix. SEM results showed the C-S-H and N-A-S-H bonds in the geopolymer. With 10M NaOH, the compressive strength of the geopolymer cement paste was optimal at 27.53 MPa. Thus, Rice husk ash (RHA) is feasible to be used as an activator in high calcium fly ash-based epoxy geopolymer cement. © Published under licence by IOP Publishing Ltd.
ISBN:17426588 (ISSN)
DOI:10.1088/1742-6596/1845/1/012072

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