Influence of fly ash on the pore structure of mortar using a differential scanning calorimetry analysis

Influence of fly ash on the pore structure of mortar using a differential scanning calorimetry analysis

In the paper a low-temperature thermoporometry using differential scanning calorimetry (DSC) was employed for analyse of influence of siliceous fly ash (FA) on pore structure of non-air-entrained mortars (pore size, connectivity). A method of interpreting a heat flux differential scanning calorimetr...

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Main Authors: Rusin Zbigniew, Stępień Piotr, Skowera Karol
Format: Article
Language:English
Published: EDP Sciences 2020-01-01
Series:MATEC Web of Conferences
Online Access:https://www.matec-conferences.org/articles/matecconf/pdf/2020/18/matecconf_matbud2020_01027.pdf
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spelling doaj-492ef50d5f2b42199d07ae6462ebf8cc2021-08-05T13:51:36ZengEDP SciencesMATEC Web of Conferences2261-236X2020-01-013220102710.1051/matecconf/202032201027matecconf_matbud2020_01027Influence of fly ash on the pore structure of mortar using a differential scanning calorimetry analysisRusin Zbigniew0Stępień Piotr1Skowera Karol2Kielce University of Technology, Faculty of Civil Engineering and ArchitectureKielce University of Technology, Faculty of Civil Engineering and ArchitectureKielce University of Technology, Faculty of Civil Engineering and ArchitectureIn the paper a low-temperature thermoporometry using differential scanning calorimetry (DSC) was employed for analyse of influence of siliceous fly ash (FA) on pore structure of non-air-entrained mortars (pore size, connectivity). A method of interpreting a heat flux differential scanning calorimetry records in pore structure was used for this purpose. The results demonstrated that the: (i) fly ash mortars have virtually no pores inaccessible to water, unlike the mortars with plain Portland cement in which inaccessible pores constitute a significant fraction, growing with the increase in w/b; (ii) with a decrease in w/b the ink-bottle volume decreases. Fraction of this pore type is relatively larger in fly ash mortars; (iii) Siliceous fly ash increased the volume of pores greater than 8 nm, in particular in the group with radii larger than 20 nm at all w/b ratios.https://www.matec-conferences.org/articles/matecconf/pdf/2020/18/matecconf_matbud2020_01027.pdf
collection DOAJ
language English
format Article
sources DOAJ
author Rusin Zbigniew
Stępień Piotr
Skowera Karol
spellingShingle Rusin Zbigniew
Stępień Piotr
Skowera Karol
Influence of fly ash on the pore structure of mortar using a differential scanning calorimetry analysis
MATEC Web of Conferences
author_facet Rusin Zbigniew
Stępień Piotr
Skowera Karol
author_sort Rusin Zbigniew
title Influence of fly ash on the pore structure of mortar using a differential scanning calorimetry analysis
title_short Influence of fly ash on the pore structure of mortar using a differential scanning calorimetry analysis
title_full Influence of fly ash on the pore structure of mortar using a differential scanning calorimetry analysis
title_fullStr Influence of fly ash on the pore structure of mortar using a differential scanning calorimetry analysis
title_full_unstemmed Influence of fly ash on the pore structure of mortar using a differential scanning calorimetry analysis
title_sort influence of fly ash on the pore structure of mortar using a differential scanning calorimetry analysis
publisher EDP Sciences
series MATEC Web of Conferences
issn 2261-236X
publishDate 2020-01-01
description In the paper a low-temperature thermoporometry using differential scanning calorimetry (DSC) was employed for analyse of influence of siliceous fly ash (FA) on pore structure of non-air-entrained mortars (pore size, connectivity). A method of interpreting a heat flux differential scanning calorimetry records in pore structure was used for this purpose. The results demonstrated that the: (i) fly ash mortars have virtually no pores inaccessible to water, unlike the mortars with plain Portland cement in which inaccessible pores constitute a significant fraction, growing with the increase in w/b; (ii) with a decrease in w/b the ink-bottle volume decreases. Fraction of this pore type is relatively larger in fly ash mortars; (iii) Siliceous fly ash increased the volume of pores greater than 8 nm, in particular in the group with radii larger than 20 nm at all w/b ratios.
url https://www.matec-conferences.org/articles/matecconf/pdf/2020/18/matecconf_matbud2020_01027.pdf
work_keys_str_mv AT rusinzbigniew influenceofflyashontheporestructureofmortarusingadifferentialscanningcalorimetryanalysis
AT stepienpiotr influenceofflyashontheporestructureofmortarusingadifferentialscanningcalorimetryanalysis
AT skowerakarol influenceofflyashontheporestructureofmortarusingadifferentialscanningcalorimetryanalysis
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