Sodium silicate solutions from dissolution of glasswastes. Statistical analysis

Torres-Carrasco, M.; Palomo, José; Puertas, Francisca

doi:10.3989/mc.2014.05213

Cited by 98 publications

(69 citation statements)

References 21 publications

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“…Based on this finding, research has been directed toward the production of alternative silicates to make the geopolymer production process more environmentally sustainable . Several studies have focused on the use of secondary sources of silica that can be obtained from industrial byproducts, such as silica fume (SF), rice husk ash (RHA) and other wastes …”

Section: Introductionmentioning

confidence: 99%

Mechanical and microstructural analysis of geopolymer composites based on metakaolin and recycled silica

Villaquirán-Caicedo

Gutiérrez

2018

J Am Ceram Soc

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This paper evaluated mechanical and thermal stability of alkali‐activated materials obtained from metakaolin and alternative silica sources, such as rice husk ash (RHA) and silica fume (SF), and were reinforced with recycled ceramic particles (RP) obtained by grinding bricks. Specimens were produced, and after 7 days of curing, they were exposed to temperatures between 300 and 1200°C to determine the influence that different percentages of RP had on the mechanical behavior and microstructure of the produced composites. The results showed a reduction in the linear contraction by 10.22% with 20 wt% RP and that the reinforcing materials improved the mechanical performance of the geopolymers after exposure to high temperatures; the compressive strengths reached 137.7 (±11.4) MPa after being exposed to 1200°C for the matrix based on RHA and 180.6 (±19.15) MPa after being reinforced with 20 wt% RP. The improvement was mainly due to densification and the formation of crystalline products such as leucite, kalsilite, and mullite.

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Section: Introductionmentioning

confidence: 99%

Mechanical and microstructural analysis of geopolymer composites based on metakaolin and recycled silica

Villaquirán-Caicedo

Gutiérrez

2018

J Am Ceram Soc

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“…The silicates effect Criado et al (Criado et al, 2008) (Puertas et al, 2012;Torres-Carrasco et al, 2014;Puertas and Torres-Carrasco, 2014;Torres-Carrasco and Puertas, 2015; Mejía et al, 2013) and nano-silica (Rodríguez et al, 2013), which have been also evaluated as a replacement silica source for these alternative activators. Hardjito et al, 2004).…”

Section: Thereby Forming Dense Reaction Products (C-s-h Gel)mentioning

confidence: 99%

La activación alcalina de diferentes aluminosilicatos como una alternativa al Cemento Portland: cementos activados alcalinamente o geopolímeros

Torres-Carrasco

Puertas

2017

Rev. ing. constr.

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“…In order to reduce the embodied energy associated with the alkaline activator required to produce alkaliactivated materials, the feasibility of substituting commercial sodium silicates by alternative silicates produced through the chemical reaction between NaOH, glass wastes and amorphous silica sources such as silica fume and rice husk ash has been studied (23)(24)(25)(26)(27)(28)(29). In alkali-activated slag binders (23)(24)(25) the development of higher mechanical strengths and reduced permeability has been identified when using activators based on silica fume and NaOH, compared with materials produced with commercial sodium silicates.…”

Section: Introductionmentioning

confidence: 99%

Performance at high temperature of alkali-activated slag pastes produced with silica fume and rice husk ash based activators

Bernal¹,

Rodríguez²,

Gutiérrez³

et al. 2015

Mater. construcc.

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This study assessed the mechanical properties, and structural changes induced by high temperature exposure, of alkali-silicate activated slag cements produced with sodium silicates derived from silica fume (SF) and rice husk ash (RHA). Similar reaction products were identified, independent of the type of silicate used, but with subtle differences in the composition of the C-S-H gels, leading to different strength losses after elevated temperature exposure. Cements produced with the alternative activators developed higher compressive strengths than those produced with commercial silicate. All samples retained strengths of more than 50 MPa after exposure to 600 °C, however, after exposure to 800 °C only the specimens produced with the RHA-based activator retained measurable strength. This study elucidated that silicate-activated slag binders, either activated with commercial silicate solutions or with sodium silicates based on SF or RHA, are stable up to 600 °C.

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Sodium silicate solutions from dissolution of glasswastes. Statistical analysis

Cited by 98 publications

References 21 publications

Mechanical and microstructural analysis of geopolymer composites based on metakaolin and recycled silica

Mechanical and microstructural analysis of geopolymer composites based on metakaolin and recycled silica

La activación alcalina de diferentes aluminosilicatos como una alternativa al Cemento Portland: cementos activados alcalinamente o geopolímeros

Performance at high temperature of alkali-activated slag pastes produced with silica fume and rice husk ash based activators

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