Air void system parameters and frost resistance of air-entrained concrete containing calcareous fly ash

Mariusz Dąbrowski; Michał A. Glinicki

doi:10.7409/rabdim.013.004

Published: 2014-02-01

Vol. 12 No. 1 (2013)

Air void system parameters and frost resistance of air-entrained concrete containing calcareous fly ash

Mariusz Dąbrowski , Michał A. Glinicki

Section: Articles

https://doi.org/10.7409/rabdim.013.004

Abstract

The paper presents results of the investigation of the air void characteristics and the resistance to cyclic freezing and thawing of air-entrained concrete containing calcareous fly ash. The frost resistance was tested also under the presence of de-icing salts to check the resistance to frost-salt scaling and without de-icing salts. The range of investigation included air entrained concrete mixes with the specified water-binder ratio of w/b=0.45 with addition of calcareous fly ash or made using blended cements with calcareous fly ash (W), and also siliceous fly ash (V) and ground granulated blast-furnace slag (S). The coarse aggregates used were crushed granodiorite and crushed limestone. The air-void system parameters were determined by microscopic image analysis and the effect of addition of calcareous fly ash was assessed. The effect of concrete age and presence of fly ash W on the strength and freeze-thaw resistance was also studied. The tests have shown that the use of calcareous fly ash as one of the main constituents of blended cements does not affect the frost salt scaling resistance nor the resistance to internal frost damage provided that the air void system is adequate.

Keywords:

air-void system parameters, blended cements, calcareous fly ash, freeze-thaw resistance, scaling resistance

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Dąbrowski, M., & Glinicki, M. A. (2014). Air void system parameters and frost resistance of air-entrained concrete containing calcareous fly ash. Roads and Bridges - Drogi I Mosty, 12(1), 41–55. https://doi.org/10.7409/rabdim.013.004

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References

Eck T.: Wykorzystanie popiołu z węgla do betonu – doświadczenia w Niemczech. EUROCOALASH, Warszawa, 2008, 99 - 113
Google Scholar

Rusin Z.: Technologia betonów mrozoodpornych. Polski Cement, Kraków, 2002
Google Scholar

Dziuk D., Giergiczny Z., Garbacik A.: Calcareous fly ash as a main constituent of common cements. Roads and Bridges – Drogi i Mosty, 12, 1, 2013, 57 - 69
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

Yazici H.: The effect of silica fume and high-volume class C fly ash on mechanical properties, chloride penetration and freeze-thaw resistance of self-compacting concrete. Construction and Building Materials, 22, 2008, 456 - 462
Google Scholar

Pigeon M., Talbot C., Marchand J., Hornain H.: Surface microstructure and scaling resistance of concrete. Cement and Concrete Research, 26, 10, 1996, 1555 - 1566
Google Scholar

Glinicki M.A.: Durability of concrete in road pavements: influence of microstructure, material design and diagnostics. IBDiM, Warszawa, 2011 (in Polish)
Google Scholar

Pedersen K.H., Jensen A.D., Skjřth-Rasmussen M.S., Dam-Johansen K.: A review of the interference of carbon containing fly ash with air entrainment in concrete. Progress in Energy and Combustion Science, 34, 2008, 135 - 154
Google Scholar

Glinicki M.A., Zieliński M.: Air void system in concrete containing circulating fluidized bed combustion fly ash. Materials and Structures, 41, 4, 2008, 681 - 687
Google Scholar

Glinicki M.A., Zieliński M.: Frost salt scaling resistance of concrete containing CFBC fly ash. Materials and Structures, 42, 7, 2009, 993 - 1002
Google Scholar

Glinicki M.A., Dąbrowski M.: Influence of high calcium fly ash on air entrainment and air void characteristics of concrete. Międzynarodowa Konferencja Popioły z Energetyki, Warszawa, 2010, 77 - 92 (in Polish)
Google Scholar

Baran T., Drożdż W.: Evaluation of properties of domestic calcareous fly ash and its processing methods. Roads and Bridges – Drogi i Mosty, 12, 1, 2013, 5 - 15
Google Scholar

Malhotra V.M., Ramenzanianpour A.A.: Fly ash in concrete. CANMET, Ottawa 1994
Google Scholar

Ramenzanianpour A.A., Malhorta V.M.: Effect of curing on the compressive strength, resistance to chloride- -ion penetration and porosity of concretes incorporating slag, fly ash or silica fume. Cement and Concrete Composites, 17, 1995, 125 - 133
Google Scholar

Dąbrowski M., Gibas K., Nowowiejski G., Glinicki M.A.: Influence of curing conditions on durability of air entrained concrete made of blended cements containing calcareous fly ash. Konferencja Dni Betonu „Tradycja i nowoczesność”, SPC, Kraków, 2012, 483 - 492 (in Polish)
Google Scholar

Mariusz Dąbrowski

mdabrow@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

Air void system parameters and frost resistance of air-entrained concrete containing calcareous fly ash

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