Peculiarities of hydration processes of cements containing natural zeolite

Khrystyna Sobol


Department of Building Production; Institute of Building and Environmental Engineering; National University Lviv Polytechnic; Lviv; Ukraine (Ukraine)

Taras Markiv


Department of Building Production; Institute of Building and Environmental Engineering; National University Lviv Polytechnic; Lviv; Ukraine (Ukraine)

Volodymyr Terlyha


Department of Building Production; Institute of Building and Environmental Engineering; National University Lviv Polytechnic; Lviv; Ukraine (Ukraine)

Wojciech Franus


Department of Geotechnical Engineering; Faculty of Civil Engineering and Architekture; Lublin University of Technology (Poland)
https://orcid.org/0000-0002-4599-3427

Abstract

In this study, properties and peculiarities of hydration processes as well as paste microstructure of blended cements containing 10% by weight of natural zeolite were investigated. Free calcium hydroxide content, crystalline hydration products and microstructural architecture of hydrated cement pastes were examined by physical and chemical methods. It was found that the addition of natural zeolite provides formation of an extra amount of fine crystalline ettringite and tobermorite-like calcium hydrosilicates of CSH (B) type in the mineral non-clinker part of Portland cement resulting in strength synthesis of cement stone with high performance properties.


Keywords:

blended cement, natural zeolite, hydration, microstructure, pozzolanic activity, plasticizer

Snellings R., Mertens G., Cizer Ö., Elsen J. Early age hydration and pozzolanic reaction in natural zeolite blended cements: Reaction kinetics and products by in situ synchrotron X-ray powder diffraction. Cem. Concr. Res. 40 (2010) 1704–1713.
  Google Scholar

Kocak Y, Tasci E, Kaya U. The effect of using natural zeolite on the properties and hydration characteristics of blended cements. Constr Build Mater47 (2013) 720–727.
  Google Scholar

Najimi M, Sobhani J, Ahmadi B, Shekarchi M. An experimental study on durability properties of concrete containing zeolite as a highly reactive natural pozzolan. Constr Build Mater 35 (2012) 1023–1033.
  Google Scholar

Сomposite cements for energy-saving concrete technologies. w: М. Sanytsky, Kh. Sobol, T. Markiv, W. Bialczak // Prаса zbiorowa Budownictwo o zoptymalizowanym potencjale energetycznym. Czestochowa, Polska, 2004, 373–377.
  Google Scholar

Sobol Kh., Blikharskyy Z., Petrovska N., Terlyha V. Analysis of structure formation peculiarities during hydration of oil-well cement with zeolitic tuff and metakaolin additives. Chemistry and chemical technology8(4) 2014 461–465.
DOI: https://doi.org/10.23939/chcht08.04.461   Google Scholar

Markiv T., Huniak O., Sobol Kh. Optimization of concrete composition with addition of zeolitic tuff. Journal of Lviv Polytechnic National University. Theory and practice of building 781 (2014) 116–121.
  Google Scholar

Franus W. Characterization of X-type zeolite prepared from coal fly ash. Polish Journal of Environmental Studies 21 (2012) 337–343.
  Google Scholar

Bandura L., Panek R., Franus W. The use of clinoptilolite and synthetic zeolites for removal of petroleum substances. Journal of Lviv Polytechnic National University. Theory and practice of building 781 (2014) 9–17.
  Google Scholar

Bilek V., KerÅ¡ner Z., Schmid P., Mosler T. The possibility of self-curing concrete. In: Dhir, Hewlett, Csetenyi, editors. Innovations and developments in concrete materials and construction. Proc. International Conference, Dundee, Scotland, UK. 9–11 September 2002, vol. 1. Thomas Telford, 2002. p. 51.
  Google Scholar

Zaichenko N.M. Internal curing and autogeneus shrinkage of high-strength concrete. Build Mater Constr J Ukrainian State Academy of Railway Transport 122 (2011) 236–244 [in Russian].
  Google Scholar

Bier T.A., Stolte B., Tokushige H., Kawakami M. Early shrinkage as influenced by water movement in mortars containing zeolites. Proc 9th International Symposium on High Performance Concrete – Design, Verification & Utilization. Energy Events Centre, Rotorua, New Zealand, 2011.
  Google Scholar

Sanytsky M., Sobol Kh., Markiv T. Modified composite cements. Lviv Polytechnic National University Publishing House, 2010, 132p [in Ukrainian].
  Google Scholar

Wagner G. Structures formation in silicate dispersions. К.: Naukova Dumka, 1989. 182p. [in Russian].
  Google Scholar

Sanytsky M., Markiv T., Kropyvnytska T., Krutc T. Modified composite cements and energetic aspects of waste utilization. 3rd International Symposium Non-Tradition Cement and Concrete. Brno, 2008, 697–702.
  Google Scholar

Download


Published
2015-03-10

Cited by

Sobol, K. (2015) “Peculiarities of hydration processes of cements containing natural zeolite”, Budownictwo i Architektura, 14(1), pp. 105–113. doi: 10.35784/bud-arch.1674.

Authors

Khrystyna Sobol 

Department of Building Production; Institute of Building and Environmental Engineering; National University Lviv Polytechnic; Lviv; Ukraine Ukraine

Authors

Taras Markiv 

Department of Building Production; Institute of Building and Environmental Engineering; National University Lviv Polytechnic; Lviv; Ukraine Ukraine

Authors

Volodymyr Terlyha 

Department of Building Production; Institute of Building and Environmental Engineering; National University Lviv Polytechnic; Lviv; Ukraine Ukraine

Authors

Wojciech Franus 

Department of Geotechnical Engineering; Faculty of Civil Engineering and Architekture; Lublin University of Technology Poland
https://orcid.org/0000-0002-4599-3427

Statistics

Abstract views: 336
PDF downloads: 129


License

Creative Commons License

This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.

Budownictwo i Architektura supports the open science program. The journal enables Open Access to their publications. Everyone can view, download and forward articles, provided that the terms of the license are respected.

Publishing of articles is possible after submitting a signed statement on the transfer of a license to the Journal.