Modification of phase evolution in alkali-activated blast furnace slag by the incorporation of fly ash
The microstructural evolution of alkali-activated binders based on blast furnace slag, fly ash and their blends during the first six months of sealed curing is assessed. The nature of the main binding gels in these blends shows distinct characteristics with respect to binder composition. It is evi...
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2014
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| Online Access: | http://ir.unimas.my/id/eprint/9188/1/Modification%20of%20phase%20evolution%20in%20alkali-activated%20blast%20furnace%20slag%20%28abstract%29.pdf http://ir.unimas.my/id/eprint/9188/ http://dx.doi.org/10.1016/j.cemconcomp.2013.09.006 |
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my.unimas.ir.91882015-10-20T02:08:50Z http://ir.unimas.my/id/eprint/9188/ Modification of phase evolution in alkali-activated blast furnace slag by the incorporation of fly ash Idawati, Ismail Susan A., Bernal John L., Provis Rackel San, Nicolas Sinin, Hamdan Jannie S.J., van Deventer TJ Mechanical engineering and machinery The microstructural evolution of alkali-activated binders based on blast furnace slag, fly ash and their blends during the first six months of sealed curing is assessed. The nature of the main binding gels in these blends shows distinct characteristics with respect to binder composition. It is evident that the incorporation of fly ash as an additional source of alumina and silica, but not calcium, in activated slag binders affects the mechanism and rate of formation of the main binding gels. The rate of formation of the main binding gel phases depends strongly on fly ash content. Pastes based solely on silicate-activated slag show a structure dominated by a C–A–S–H type gel, while silicate-activated fly ash are dominated by N–A–S–H ‘geopolymer’ gel. Blended slag-fly ash binders can demonstrate the formation of co-existing C– A–S–H and geopolymer gels, which are clearly distinguishable at earlier age when the binder contains no more than 75 wt.% fly ash. The separation in chemistry between different regions of the gel becomes less distinct at longer age. With a slower overall reaction rate, a 1:1 slag:fly ash system shares more microstructural features with a slag-based binder than a fly ash-based binder, indicating the strong influence of calcium on the gel chemistry, particularly with regard to the bound water environments within the gel. However, in systems with similar or lower slag content, a hybrid type gel described as N–(C)–A–S–H is also identified, as part of the Ca released by slag dissolution is incorporated into the N–A–S–H type gel resulting from fly ash activation. Fly ash-based binders exhibit a slower reaction compared to activated- slag pastes, but extended times of curing promote the formation of more cross-linked binding products and a denser microstructure. This mechanism is slower for samples with lower slag content, emphasizing the correct selection of binder proportions in promoting a well-densified, durable solid microstructure. Elsevier 2014 E-Article NonPeerReviewed text en http://ir.unimas.my/id/eprint/9188/1/Modification%20of%20phase%20evolution%20in%20alkali-activated%20blast%20furnace%20slag%20%28abstract%29.pdf Idawati, Ismail and Susan A., Bernal and John L., Provis and Rackel San, Nicolas and Sinin, Hamdan and Jannie S.J., van Deventer (2014) Modification of phase evolution in alkali-activated blast furnace slag by the incorporation of fly ash. Cement & Concrete Composites, 45. pp. 125-135. ISSN 0958-9465 http://dx.doi.org/10.1016/j.cemconcomp.2013.09.006 |
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TJ Mechanical engineering and machinery Idawati, Ismail Susan A., Bernal John L., Provis Rackel San, Nicolas Sinin, Hamdan Jannie S.J., van Deventer Modification of phase evolution in alkali-activated blast furnace slag by the incorporation of fly ash |
| description |
The microstructural evolution of alkali-activated binders based on blast furnace slag, fly ash and their
blends during the first six months of sealed curing is assessed. The nature of the main binding gels in
these blends shows distinct characteristics with respect to binder composition. It is evident that the
incorporation of fly ash as an additional source of alumina and silica, but not calcium, in activated slag
binders affects the mechanism and rate of formation of the main binding gels. The rate of formation of
the main binding gel phases depends strongly on fly ash content. Pastes based solely on silicate-activated
slag show a structure dominated by a C–A–S–H type gel, while silicate-activated fly ash are dominated by
N–A–S–H ‘geopolymer’ gel. Blended slag-fly ash binders can demonstrate the formation of co-existing C–
A–S–H and geopolymer gels, which are clearly distinguishable at earlier age when the binder contains no
more than 75 wt.% fly ash. The separation in chemistry between different regions of the gel becomes less
distinct at longer age. With a slower overall reaction rate, a 1:1 slag:fly ash system shares more microstructural
features with a slag-based binder than a fly ash-based binder, indicating the strong influence
of calcium on the gel chemistry, particularly with regard to the bound water environments within the gel.
However, in systems with similar or lower slag content, a hybrid type gel described as N–(C)–A–S–H is
also identified, as part of the Ca released by slag dissolution is incorporated into the N–A–S–H type gel
resulting from fly ash activation. Fly ash-based binders exhibit a slower reaction compared to activated-
slag pastes, but extended times of curing promote the formation of more cross-linked binding
products and a denser microstructure. This mechanism is slower for samples with lower slag content,
emphasizing the correct selection of binder proportions in promoting a well-densified, durable solid
microstructure. |
| format |
E-Article |
| author |
Idawati, Ismail Susan A., Bernal John L., Provis Rackel San, Nicolas Sinin, Hamdan Jannie S.J., van Deventer |
| author_facet |
Idawati, Ismail Susan A., Bernal John L., Provis Rackel San, Nicolas Sinin, Hamdan Jannie S.J., van Deventer |
| author_sort |
Idawati, Ismail |
| title |
Modification of phase evolution in alkali-activated blast furnace slag by the incorporation of fly ash |
| title_short |
Modification of phase evolution in alkali-activated blast furnace slag by the incorporation of fly ash |
| title_full |
Modification of phase evolution in alkali-activated blast furnace slag by the incorporation of fly ash |
| title_fullStr |
Modification of phase evolution in alkali-activated blast furnace slag by the incorporation of fly ash |
| title_full_unstemmed |
Modification of phase evolution in alkali-activated blast furnace slag by the incorporation of fly ash |
| title_sort |
modification of phase evolution in alkali-activated blast furnace slag by the incorporation of fly ash |
| publisher |
Elsevier |
| publishDate |
2014 |
| url |
http://ir.unimas.my/id/eprint/9188/1/Modification%20of%20phase%20evolution%20in%20alkali-activated%20blast%20furnace%20slag%20%28abstract%29.pdf http://ir.unimas.my/id/eprint/9188/ http://dx.doi.org/10.1016/j.cemconcomp.2013.09.006 |
| _version_ |
1644510670860845056 |