Evaluation of impermeability of concrete containing calcareous fly ash in respect to environmental media

Karolina Gibas; Michał A. Glinicki; Grzegorz Nowowiejski

doi:10.7409/rabdim.013.012

Published: 2014-02-01

Vol. 12 No. 2 (2013)

Evaluation of impermeability of concrete containing calcareous fly ash in respect to environmental media

Karolina Gibas , Michał A. Glinicki , Grzegorz Nowowiejski

Section: Articles

https://doi.org/10.7409/rabdim.013.012

Abstract

The paper presents the investigation of concrete resistance to penetration by liquid and gaseous environmental media. Calcareous fly ash obtained from Bełchatów Power Station was used as concrete additive. In the mix design a certain portion of binder (15% and 30%) was substituted with calcareous fly ash assuming the efficiency factors of 0.7 or 1.0. The tested parameters included the air permeability coefficient measured with Torrent method, the depth of water penetration under pressure and the coefficient of chloride ions migration measured with the rapid chloride migration test. It was established that the addition of calcareous fly ash resulted in the desired reduction of the value of a chloride migration coefficient while the effect on the permeability of water and air was similar to the effect it had on the compressive strength of concrete.

Keywords:

air permeability, calcareous fly ash, chloride migration, compressive strength, fly ash processing, Torrent method, water permeability

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Gibas, K., Glinicki, M. A., & Nowowiejski, G. (2014). Evaluation of impermeability of concrete containing calcareous fly ash in respect to environmental media. Roads and Bridges - Drogi I Mosty, 12(2), 159–171. https://doi.org/10.7409/rabdim.013.012

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References

Nilsson L.O.: Transport process in the microstructure of concrete and their relevance for durability, in: Microstructural-related Durability of Cementitious Composites, Editors: G. Ye, K. van Breugel, W. Sun and Ch. Miao, RILEM Publications SARL, 2012, 29 - 36
Google Scholar

Brandt A.M.: Cement-Based Composites: Materials, Mechanical Properties and Performance. Taylor&Francis, 2009
Google Scholar

RILEM TC 189-NEC: Non-destructive evaluation of the concrete cover. Comparative test – Part I – Comparative test of ‘penetrability’ methods, Materials and Structures, 38, 2005, 895 - 906
Google Scholar

Śliwiński J.: Podstawowe właściwości betonu i jego trwałość, Cement Wapno Beton, 76, 5, 2009, 245- 254
Google Scholar

Scrivener K.: Impact of microstructure on the durability of concrete, in: Microstructural-related Durability of Cementitious Composites, Editors: G. Ye, K. van Breugel, W. Sun and Ch. Miao, RILEM Publications SARL, 2012, 13 - 19
Google Scholar

Giergiczny Z., Synowiec K., Żak A.: Suitablility evaluation of calcareous fly ash as an active mineral additive to concrete. Roads and Bridges - Drogi i Mosty, 12, 1, 2013, 83 - 97
Google Scholar

Naik T.R., Singh S.S.: Use of high-calcium fly ash in cement-based construction materials. Fifth CANMET/ACI International Conference on Fly Ash, Silica Fume, Slag and Natural Pozzolans in Concrete. Milwaukee, USA, Supplementary Papers, 1995, 144 - 156
Google Scholar

Jóźwiak-Niedźwiedzka D., Gibas K., Glinicki M.A., Nowowiejski G.: Influence of high calcium fly ash on permeability of concrete in respect to aggressive media. Drogi i Mosty, 10, 3, 2011, 39 - 61 (in Polish)
Google Scholar

Gibas K., Glinicki M.A.: Influence of calcerous fly ash on concrete resistance to migration of chlorides. International Symposium Brittle Matrix Composites-10, Woodhead Publishing & IPPT PAN, Warsaw, 2012, 367 - 376
Google Scholar

Glinicki M.A., Nowowiejski G., Dąbrowski M., Gibas K.: Wpływ wilgotności betonu i dodatków popiołowych na gazoprzepuszczalność określoną metodą Torrenta. VI Konferencja „Dni Betonu – Tradycja i Nowoczesność”. SPC, Kraków 2010, 711 - 720
Google Scholar

Śliwiński J., Tracz T.: Przepuszczalność betonu określana przy przepływie gazu metodą laboratoryjną i polową - porównanie wyników i ich korelacja. VII Konferencja „Dni Betonu – Tradycja i Nowoczesność”, SPC, Kraków, 2012, 949 - 958
Google Scholar

Nowowiejski G.: Wpływ popiołów lotnych wapiennych na współczynnik przepuszczalności gazów i wodoszczelność betonu. VII Konferencja „Dni Betonu – Tradycja i Nowoczesność", SPC, Kraków, 2012, 597-607
Google Scholar

Bentur A., Mitchell D.: Material performance lessons, Cement and Concrete Research, 38, 2, 2008, 259 - 272
Google Scholar

Glinicki M.A., Nowowiejski G.: Strength and permeability of concrete with CEM II and “CEM V” cements containing high calcium fly ash. 3rd International Conference on Sustainable Construction Materials and Technology - SCMT 2013, Kyoto, 2013
Google Scholar

Śliwiński J., Tracz T.: Sposób rejestracji i opracowania wyników badań przesiąkliwości betonu wodą. IV Konferencja Naukowo-Techniczna „Zagadnienia materiałowe w inżynierii lądowej”, MATBUD 2003, Politechnika Krakowska, Kraków 2003, 372 - 378
Google Scholar

Karolina Gibas

kgibas@ippt.pan.pl

Affiliation:

Institute of Fundamental Technological Research Polish Academy of Sciences, Warsaw

Michał A. Glinicki

Affiliation:

Institute of Fundamental Technological Research Polish Academy of Sciences, Warsaw

Grzegorz Nowowiejski

Affiliation:

Hydrobudowa-1 Concrete Laboratory Limited Liability Company, Warsaw

Evaluation of impermeability of concrete containing calcareous fly ash in respect to environmental media

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Karolina Gibas

Michał A. Glinicki

Grzegorz Nowowiejski