COMPRESSIVE STRENGTH OF GEOPOLYMER LIGHTWEIGHT CONCRETE WITH COMPARISON OF RICE HUSK ASH AND ALKALI ACTIVATOR 50% -50% IN CURING TIME VARIATIONS

@inproceedings{DS2018COMPRESSIVESO,
  title={COMPRESSIVE STRENGTH OF GEOPOLYMER LIGHTWEIGHT CONCRETE WITH COMPARISON OF RICE HUSK ASH AND ALKALI ACTIVATOR 50\% -50\% IN CURING TIME VARIATIONS},
  author={Kukuh Kurniawan D.S and Teguh Yuono},
  year={2018}
}
Today, concrete is a very important building material material in construction. Geopolymers are concrete technologies that utilize polymerization reactions in the binding process. The main arrangement of this geoplimer material is silica and alumina (aluminum silica hydroxide). Silica material used is derived from inorganic materials that have high silica content. Rice husk ash is one of the industrial by-products that have high silica content. Rice husk ash resulting from burning bricks… 

Tables from this paper

References

SHOWING 1-4 OF 4 REFERENCES
Fly Ash-based Geopolymer Lightweight Concrete Using Foaming Agent
TLDR
The results showed that the sample which was cured at 60 °C (LW2) produced the maximum compressive strength for all tests, and the LW2 sample had a denser matrix than LW1, which was because LW2 was heat cured, which caused the geopolymerization rate to increase, producing a densing matrix.
Sifat mekanik beton geopolimer berbahan dasar abu terbang
pengujian sifat mekanik beton geopolimer berbahan dasar abu terbang menunjukan hasil yang tidak jauh berbeda  dengan beton normal biasa yang dibuat sebagai pembanding. Nilai kuat tekan yang melebihi
The Effect of Rice Husk Ash Addition as Pozzolan on Geopolymer Binder Using Alkali Activator of Sodium Silicate ( Na 2 SiO 3 ) and Sodium Hydroxide ( NaOH )
  • Sifat mekanik beton geopolimer berbahan dasar abu terbang , 4 ( KoNTekS 4 )
  • 2010
Composition And Microstructure Of Fly Ash Geopolimer Containing Rice Husk Ash
  • Technology And Innovation For Sustainable Development Conference (TISD
  • 2008