Modeling of structuring processes at hardening of expanding cements and concretes on their basis

Modeling of structuring processes at hardening of expanding cements and concretes on their basis

This paper reports the results of experimental research of the effect of strain-restriction conditions on the structure and properties of sulfoaluminate expanding cementitious materials. Theoretical analysis of the development of pattern formation processes is performed by applying the developed rhe...

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Main Authors: Kharchenko Igor, Panchenko Alexander, Kharchenko Alexey, Alekseev Vyacheslav
Format: Article
Language:English
Published: EDP Sciences 2018-01-01
Series:MATEC Web of Conferences
Online Access:https://doi.org/10.1051/matecconf/201819604035
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spelling doaj-c4fffca5b59945fa829ce6f8b3490d8a2021-02-02T06:56:12ZengEDP SciencesMATEC Web of Conferences2261-236X2018-01-011960403510.1051/matecconf/201819604035matecconf_rsp2018_04035Modeling of structuring processes at hardening of expanding cements and concretes on their basisKharchenko IgorPanchenko AlexanderKharchenko AlexeyAlekseev VyacheslavThis paper reports the results of experimental research of the effect of strain-restriction conditions on the structure and properties of sulfoaluminate expanding cementitious materials. Theoretical analysis of the development of pattern formation processes is performed by applying the developed rheological model, illustrating features of the kinetics of structure-forming processes according to the ratio of the potential index of extension with linear, flat and volumetric limitation of deformations of the extension. The results show that rheological model adequately correlates with the results of experimental studies and can be described mathematically. Found that with the volume limitation of deformations arising when mixing crystallographic phases with high density and strength, the pore structure of the cement stone contains mainly gel pores. This is the main prerequisite for obtaining a dense, high-strength and durable structure of cement stone and concrete on its basis.https://doi.org/10.1051/matecconf/201819604035
collection DOAJ
language English
format Article
sources DOAJ
author Kharchenko Igor
Panchenko Alexander
Kharchenko Alexey
Alekseev Vyacheslav
spellingShingle Kharchenko Igor
Panchenko Alexander
Kharchenko Alexey
Alekseev Vyacheslav
Modeling of structuring processes at hardening of expanding cements and concretes on their basis
MATEC Web of Conferences
author_facet Kharchenko Igor
Panchenko Alexander
Kharchenko Alexey
Alekseev Vyacheslav
author_sort Kharchenko Igor
title Modeling of structuring processes at hardening of expanding cements and concretes on their basis
title_short Modeling of structuring processes at hardening of expanding cements and concretes on their basis
title_full Modeling of structuring processes at hardening of expanding cements and concretes on their basis
title_fullStr Modeling of structuring processes at hardening of expanding cements and concretes on their basis
title_full_unstemmed Modeling of structuring processes at hardening of expanding cements and concretes on their basis
title_sort modeling of structuring processes at hardening of expanding cements and concretes on their basis
publisher EDP Sciences
series MATEC Web of Conferences
issn 2261-236X
publishDate 2018-01-01
description This paper reports the results of experimental research of the effect of strain-restriction conditions on the structure and properties of sulfoaluminate expanding cementitious materials. Theoretical analysis of the development of pattern formation processes is performed by applying the developed rheological model, illustrating features of the kinetics of structure-forming processes according to the ratio of the potential index of extension with linear, flat and volumetric limitation of deformations of the extension. The results show that rheological model adequately correlates with the results of experimental studies and can be described mathematically. Found that with the volume limitation of deformations arising when mixing crystallographic phases with high density and strength, the pore structure of the cement stone contains mainly gel pores. This is the main prerequisite for obtaining a dense, high-strength and durable structure of cement stone and concrete on its basis.
url https://doi.org/10.1051/matecconf/201819604035
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AT panchenkoalexander modelingofstructuringprocessesathardeningofexpandingcementsandconcretesontheirbasis
AT kharchenkoalexey modelingofstructuringprocessesathardeningofexpandingcementsandconcretesontheirbasis
AT alekseevvyacheslav modelingofstructuringprocessesathardeningofexpandingcementsandconcretesontheirbasis
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