Roads and Bridges - Drogi i Mosty
19, 4, 2020, 267-282

The possibility of use of mixture of siliceous and calcareous fly ash for production of Portland-composite cement type CEM II/B-M (V-W) 52.5

Ewelina Tkaczewska Mail
AGH University of Science and Technology, Faculty of Materials Science and Ceramics, 30 Mickiewicza Av., 30-059 Cracow, Poland
Published: 2020-12-30

Abstract

The paper analyses the properties of Portland-composite cement CEM II/B-M (V-W) prepared by addition of mixture of siliceous and calcareous fly ashes – in percentage proportion of 20:0, 10:10, 20:10 or 15:15 – to Portland cement CEM I 42.5R. Blaine’s surface area of cements equalled 4000±100 cm2/g. Hydration heat, standard consistency, initial setting time, soundness and compressive strength were analysed in the paper. Partial replacement of siliceous fly ash with calcareous fly ash in cement gives a Portland-composite cement CEM II/B-M (V-W) of strength class 52.5N or even 52.5R, if the percentage proportion of siliceous to calcareous fly ash is 20:10.

Keywords


compressive strength, fly ash, hydration heat, initial setting time, Portland-composite cement, soundness, standard consistency.

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References


Kurdowski W.: Chemia cementu i betonu. Springer, Warszawa, 2010

Watt J.D., Thorne D.J.: Composition and pozzolanic properties of pulverised fuel ashes. I. Composition of fly ashes from some British power stations and properties of their component particles. Journal of Applied Chemistry, 15, 12, 1965, 585-594, DOI: 10.1002/jctb.5010151207

Garbacik A.: Właściwości fizyczne i chemiczne popiołów W oraz ocena ich zmienności. Seminarium naukowe „Popioły lotne wapienne w technologii cementu”, Kraków, 2011

Giergiczny Z.: Popiół lotny w składzie cementu i betonu. Wydawnictwo Politechniki Śląskiej, Gliwice, 2013

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, DOI: 10.7409/rabdim.013.005

Hubbard F.H., Dhir R.K., Ellis M.S.: Pulverized-fuel ash for concrete: Compositional characterisation of United Kingdom PFA. Cement and Concrete Research, 15, 1, 1985, 185-198, DOI: 10.1016/0008-8846(85)90025-0

Tkaczewska E., Małolepszy J.: Właściwości szkła w krzemionkowych popiołach lotnych. Cement Wapno Beton, 14/76, 3, 2009, 148-153

Bumrongjaroen W., Swetekititham S., Livingston R.A., Schweitzer J.: Synthetic glass models for investigating fly ash reactivity. 9th CANMET/ACI International Conference on Fly Ash, Silica Fume, Slag and Natural Pozzolans in Concrete, Warsaw, 2007, 227-242

Alahrache S., Lothenbach B., Accardo G., Champenois J.B., Hesselbarth F., Winnefeld F.: Dissolution of aluminosilicate glasses in alkaline environment. 14International Congress on the Chemistry of Cement, Abstract Book, Vol. 1, Beijing, 2015, 225, CD

Tkaczewska E.: Wpływ stosunku AlO/(NaO+KO+2CaO) na reaktywność syntetycznego szkła popiołowego i właściwości mechaniczne zaprawy z dodatkiem tego popiołu lotnego. Cement Wapno Beton, 24/86, 6, 2019, 494-505, DOI: 10.32047/CWB.2019.24.6.8

Hemmings R.T., Berry E.E.: On the glass in coal fly ashes: Recent advance. Symposium Q - Fly Ash and Coal Conversion By-Products IV, Materials Research Society, 113, 1988, 3-38

Berry E.E., Malhotra V.M.: Fly ash in concrete. Minister of Supplies and Services, Detroit, 1987

Taylor H.F.W.: Cement chemistry. Published by Thomas Telford, London, 1997

Giergiczny Z.: Popioły lotne z dużą zawartością wapnia. Cement Wapno Beton, 10/72, 5, 2005, 271-282

Giergiczny Z., Garbacik A., Ostrowski M.: Pozzolanic and hydraulic activity of calcareous fly ash. Roads and Bridges - Drogi i Mosty, 12, 1, 2013, 71-81, DOI: 10.7409/rabdim.013.006

Giergiczny E., Giergiczny Z., Michniewicz E.: The properties and use of fly ashes from the brown coal combustion. 4th International Symposium on the Reclamation, Treatment and Utilization of Coal Mining Wastes, Krakow, 1993, 609-616

Giergiczny Z.: Rola popiołów lotnych wapniowych i krzemionkowych w kształtowaniu właściwości współczesnych spoiw budowlanych i tworzyw cementowych. Monografia 325, Wydawnictwo Politechniki Krakowskiej, Kraków, 2006

Giergiczny Z., Garbacik A., Baran T.: Calcareous fly ashes as a pozzolanic-hydraulic constituent of cements and an active addition for concrete. 5th International Scientific Conference “Energy and Environment in Technology of Building Materials, Ceramics, Glass and Refractories”, Warsaw-Opole, 2010, chapter 14, 186-200

Giergiczny Z.: The hydraulic activity of high calcium fly ash. Journal of Thermal Analysis and Calorimetry, 83, 1, 2006, 227-232, DOI: 10.1007/s10973-005-6970-7

Massazza F.: Pozzolana and pozzolanic cements, in: Lea’s Chemistry of Cement and Concrete. Published by Elsevier Ltd., London, 2003, 471-635

Giergiczny Z., Garbacik A.: Właściwości cementów z dodatkiem popiołu lotnego wapiennego. Cement Wapno Beton, 17/79, 4, 2012, 217-224

Papadakis V.G.: Effect of fly ash on Portland cement systems: Part I. Low-calcium fly ash. Cement and Concrete Research, 29, 11, 1999, 1727-1736, DOI: 10.1016/S0008-8846(99)00153-2

Baran T., Drożdż W., Pichniarczyk P.: The use of calcareous fly ash in cement and concrete manufacture. Cement Wapno Beton, 17/79, 1, 2012, 50-56

Papadakis V.G.: Effect of fly ash on Portland cement systems: Part II. High-calcium fly ash. Cement and Concrete Research, 30, 10, 2000, 1647-1654, DOI: 10.1016/S0008-8846(00)00388-4

Antiohos S., Maganari K., Tsimas S.: Evaluation of blends of high and low calcium fly ashes for use as supplementary cementing materials. Cement and Concrete Composite, 27, 3, 2005, 349-356, DOI: 10.1016/j.cemconcomp.2004.05.001

Nowoświat A., Gołaszewski J.: Influence of the variability of calcareous fly ash properties on rheological properties of fresh mortar with its addition. Materials (Basel), 12, 12, 2019, 1942

Tsimas S., Antiohos S., Papayianni I.: Standardization aspects concerning high calcium fly ashes. Cement and Concrete World, 9, 1, 2005, 66-85

Giergiczny Z.: Fly ash and slag. Cement and Concrete Research, 124, 2019, 105826, DOI: 10.1016/j.cemconres.2019.105826

Giergiczny Z., Synowiec K., Żak A.: Suitability evaluation of calcareous fly ash as an active mineral additive to concrete. Roads and Bridges - Drogi i Mosty, 12, 1, 2013, 83-97, DOI: 10.7409/rabdim.013.007

Czopowski E., Łaźniewska-Piekarczyk B., Rubińska- Jończy B., Szwabowski J.: Properties of concretes based on cements containing calcareous fly ash. Roads and Bridges - Drogi i Mosty, 12, 1, 2013, 31-40, DOI: 10.7409/rabdim.013.003

Gołaszewski J., Ponikiewski T., Kostrzanowska- Siedlarz A., Miera P., Deszcz J.: Influence of cements containing calcareous fly ash as a main component on properties of fresh cement mixtures. WMCAUS - IOP Conference Series: Materials Science and Engineering, 245, 2017, 022099

Amarnath Y., RamaChandurdu C., Bhaskar Desai V.: Influence of fly ash replacement on strength properties of cement mortar. International Journal of Engineering Science and Technology, 4, 8, 2012, 3657-3665

Gołaszewski J., Kostrzanowska A., Ponikiewski T., Antonowicz G.: Influence of calcareous fly ash on rheological properties of cement pastes and mortars. Roads and Bridges - Drogi i Mosty, 12, 1, 2013, 99-112, DOI: 10.7409/rabdim.013.008

Giergiczny Z., Dziuk D., Pużak T., Batog M.: Practical Use of Calcareous fly ash in portland-composite cement CEM II/B-M (V-W) 32,5R industrial production. International Journal of Research in Engineering and Technology, 3, 13, 2014, 195-202

Dziuk D., Giergiczny Z., Adamski G., Garbacik A.: Cement portlandzki wieloskładnikowy CEM II/B-M (V-W) 32,5R - skład, właściwości i możliwości zastosowania w budownictwie. Materiały Budowlane, 5, 2012, 37-39

Giergiczny Z., Weryńska A.: Influence of fineness of fly ashes on their hydraulic activity. 3rd CANMET/ACI International Conference on Fly Ash, Silica Fume, Slag and Natural Pozzolans in Concrete, Trondheim, 1989, 97-115

Ramachandran V.S.: Mineral admixture, in: Concrete Admixtures Handbook: Properties, Science and Technology. Noyes Publications, Westwood, 1984, 657-739

Xu G., Shi X.: Characteristics and applications of fly ash as a sustainable construction material: A state-of-the-art review. Resources, Conservation and Recycling, 136, 2018, 95-109, DOI: 10.1016/j.resconrec.2018.04.010

Tkaczewska E.: Effect of size fraction and glass structure of siliceous fly ashes on fly ash cement hydration. Journal of Industrial Engineering and Chemistry, 20, 1, 2014, 315-321, DOI: 10.1016/j.jiec.2013.03.032

Tkaczewska E.: Wpływ skłądu chemicznego i więźby szkła popiołowego na właściwości cementu. Cement Wapno Beton, 22/84, 4, 2017, 328-336

Chiu A.: Hydration of tricalcium silicate. Project No. PHASM201, University College London, London, 2016

Ponikiewski T., Gołaszewski J.: Kształtowanie samozagęszczalności mieszanek betonowych na bazie cementów z dodatkiem popiołu lotnego wapiennego. Cement Wapno Beton, 17/79, 4, 2012, 233-242

Małolepszy J., Tkaczewska E.: Wpływ frakcji ziarnowej popiołów lotnych na ich właściwości pucolanowe. Ceramika, Polski Biuletyn Ceramiczny, 91, 2, 2005, 1143-1150


The possibility of use of mixture of siliceous and calcareous fly ash for production of Portland-composite cement type CEM II/B-M (V-W) 52.5

  
Tkaczewska, Ewelina. The possibility of use of mixture of siliceous and calcareous fly ash for production of Portland-composite cement type CEM II/B-M (V-W) 52.5. Roads and Bridges - Drogi i Mosty, [S.l.], v. 19, n. 4, p. 267-282, dec. 2020. ISSN 2449-769X. Available at: <>. Date accessed: 23 Oct. 2021. doi:http://dx.doi.org/10.7409/rabdim.020.017.