Drying-induced changes in the structure of alkali-activated pastes

Drying of cement paste, mortar, or concrete specimens is usually required as a pre-conditioning step prior to the determination of permeability-related properties according to standard testing methods. The reaction process, and consequently the structure, of an alkali-activated slag or slag/fly...

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Main Authors: Idawati, Ismail, Susan A., Bernal, John L., Provis, Sinin, Hamdan, Jannie S. J., van Deventer
Format: E-Article
Language:English
Published: Springer US 2013
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Online Access:http://ir.unimas.my/id/eprint/9182/1/Drying-induced%20changes%20in%20the%20structure%20of%20alkali-activated%20pastes%20%28abstract%29.pdf
http://ir.unimas.my/id/eprint/9182/
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Institution: Universiti Malaysia Sarawak
Language: English
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spelling my.unimas.ir.91822015-10-20T01:39:24Z http://ir.unimas.my/id/eprint/9182/ Drying-induced changes in the structure of alkali-activated pastes Idawati, Ismail Susan A., Bernal John L., Provis Sinin, Hamdan Jannie S. J., van Deventer GE Environmental Sciences Drying of cement paste, mortar, or concrete specimens is usually required as a pre-conditioning step prior to the determination of permeability-related properties according to standard testing methods. The reaction process, and consequently the structure, of an alkali-activated slag or slag/fly ash blend geopolymer binder differs from that of Portland cement, and therefore there is little understanding of the effects of conventional drying methods (as applied to Portland cements) on the structure of the geopolymer binders. Here, oven drying (60 �C), acetone treatment, and desiccator/vacuum drying are applied to sodium silicateactivated slag and slag/fly ash geopolymer pastes after 40 days of curing. Structural characterization via X-ray diffraction, infrared spectroscopy, thermogravimetry, and nitrogen sorption shows that the acetone treatment best preserves the microstructure of the samples, while oven drying modifies the structure of the binding gels, especially in alkali-activated slag paste where it notably changes the pore structure of the binder. This suggests that the pre-conditioned drying of alkali activation-based materials strongly affects their microstructural properties, providing potentially misleading permeability and durability parameters for these materials when pre-conditioned specimens are used during standardized testing. Springer US 2013 E-Article NonPeerReviewed text en http://ir.unimas.my/id/eprint/9182/1/Drying-induced%20changes%20in%20the%20structure%20of%20alkali-activated%20pastes%20%28abstract%29.pdf Idawati, Ismail and Susan A., Bernal and John L., Provis and Sinin, Hamdan and Jannie S. J., van Deventer (2013) Drying-induced changes in the structure of alkali-activated pastes. Journal of Materials Science, 48 (9). pp. 3566-3577. ISSN 1573-4803 10.1007/s10853-013-7152-9
institution Universiti Malaysia Sarawak
building Centre for Academic Information Services (CAIS)
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Malaysia Sarawak
content_source UNIMAS Institutional Repository
url_provider http://ir.unimas.my/
language English
topic GE Environmental Sciences
spellingShingle GE Environmental Sciences
Idawati, Ismail
Susan A., Bernal
John L., Provis
Sinin, Hamdan
Jannie S. J., van Deventer
Drying-induced changes in the structure of alkali-activated pastes
description Drying of cement paste, mortar, or concrete specimens is usually required as a pre-conditioning step prior to the determination of permeability-related properties according to standard testing methods. The reaction process, and consequently the structure, of an alkali-activated slag or slag/fly ash blend geopolymer binder differs from that of Portland cement, and therefore there is little understanding of the effects of conventional drying methods (as applied to Portland cements) on the structure of the geopolymer binders. Here, oven drying (60 �C), acetone treatment, and desiccator/vacuum drying are applied to sodium silicateactivated slag and slag/fly ash geopolymer pastes after 40 days of curing. Structural characterization via X-ray diffraction, infrared spectroscopy, thermogravimetry, and nitrogen sorption shows that the acetone treatment best preserves the microstructure of the samples, while oven drying modifies the structure of the binding gels, especially in alkali-activated slag paste where it notably changes the pore structure of the binder. This suggests that the pre-conditioned drying of alkali activation-based materials strongly affects their microstructural properties, providing potentially misleading permeability and durability parameters for these materials when pre-conditioned specimens are used during standardized testing.
format E-Article
author Idawati, Ismail
Susan A., Bernal
John L., Provis
Sinin, Hamdan
Jannie S. J., van Deventer
author_facet Idawati, Ismail
Susan A., Bernal
John L., Provis
Sinin, Hamdan
Jannie S. J., van Deventer
author_sort Idawati, Ismail
title Drying-induced changes in the structure of alkali-activated pastes
title_short Drying-induced changes in the structure of alkali-activated pastes
title_full Drying-induced changes in the structure of alkali-activated pastes
title_fullStr Drying-induced changes in the structure of alkali-activated pastes
title_full_unstemmed Drying-induced changes in the structure of alkali-activated pastes
title_sort drying-induced changes in the structure of alkali-activated pastes
publisher Springer US
publishDate 2013
url http://ir.unimas.my/id/eprint/9182/1/Drying-induced%20changes%20in%20the%20structure%20of%20alkali-activated%20pastes%20%28abstract%29.pdf
http://ir.unimas.my/id/eprint/9182/
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