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IFKA, T. PALOU, M. KULIFFAYOVÁ, M. BOHÁČ, M. FRAJKOROVÁ, F. BÁGEĽ, Ľ.
Original Title
Pore structure analysis of Portland cement and blended Portland cements cured under hydrothermal conditions cements cured under hydrothermal conditions
Type
conference paper
Language
English
Original Abstract
The pore structure of Portland cement pastes cured under different hydrothermal regimes was analyzed. Pore size distribution (PSD), hydraulic permeability coefficient (HK) and porosity (P) were found depending on temperature and steam pressure. With increasing hydrothermal characteristics, the pore structures degraded causing the depletion in compressive strength. Then, blast furnace slag (BFS) and silica fume (SF) were added to PC and cured under similar conditions. It was found that the pore structure was greatly improved. The effect of hydrothermal curing may be interpreted by the intensity and position of the peak, by the length and bimodal characteristic of PSD. The maximum concentration of pores of reference cement paste lies in the range 10 – 103 nm, and changes progressively to the size < 10 nm with increasing addition of BFS and SF. This behavior is attributed mainly to the presence of SF. Microstructure analysis shows hydrate products like needle CSH and CASH, which were stable under hydrothermal curing.
Keywords
Portland cement, hydrothermal curing, pore structure, microstructure
Authors
IFKA, T.; PALOU, M.; KULIFFAYOVÁ, M.; BOHÁČ, M.; FRAJKOROVÁ, F.; BÁGEĽ, Ľ.
RIV year
2014
Released
1. 9. 2014
ISBN
1022-6680
Periodical
Advanced Materials Research
Year of study
Number
1000
State
Swiss Confederation
Pages from
235
Pages to
238
Pages count
4
BibTex
@inproceedings{BUT109393, author="Tomáš {Ifka} and Martin {Palou} and Marta {Kuliffayová} and Martin {Boháč} and Františka {Frajkorová} and Ľubomír {Bágeľ}", title="Pore structure analysis of Portland cement and blended Portland cements cured under hydrothermal conditions cements cured under hydrothermal conditions", booktitle="Ecology and New Building Materials and Products", year="2014", journal="Advanced Materials Research", volume="2014", number="1000", pages="235--238", doi="10.4028/www.scientific.net/AMR.1000.235", issn="1022-6680" }