Abstract
In this paper, an investigation related to the rheological behaviour of alkali-activated fly-ash pastes (AAFA) is described. Those pastes were prepared by mixing the fly ash with an alkaline dissolution containing 85% of a 12.5 M NaOH solution and 15% of waterglass and adding some commercial chemical admixtures usually used in the Portland cement concrete fabrication, like lignosulphonates, melamines (first and second generation products) and polycarboxylates (latest generation). The fly ash rheological data were determined by rotational viscometry measurements as well as by the use of the flow table test. Results indicate that chemicals admixtures used do not work the same in the Portland cement systems than in alkali-activated fly ash systems. As a general rule, it seems that the most efficient admixtures for these new cementitious pastes (AAFA) are those based in polycarboxylates.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Andersen MD, Jakobsen HJ, Skibsted J (2004) Characterization of white Portland cement hydration and the C-S-H structure in presence of sodium aluminate by 27Al and 29Si MAS NMR spectroscopy. Cem Concr Res 34:857–868
Bakharev T, Sanjayan JG, Cheng YB (2000) Effect of admixtures on properties of alkali-activated slag concrete. Cem Concr Res 30:1367–1374
Banfill PFG, Carter RE, Weaver PJ (1991) Simultaneous rheological and kinetic measurements on cement pastes. Cem Concr Res 21:1148–1154
Beaupré D, Mindess S (1998) Rheology of fresh concrete: principles, measurement, and applications. In: Skalny J (ed) Materials science of concrete, vol V. American Ceramic Society, Westerville, p 149. ISBN: 1-57498-027-0
Buchwald A, Schulz M (2005) Alkali-activated binders by use of industrial by-products. Cem Concr Res 35:968–973
Criado M (2007) Nuevos materiales cementantes basados en la activación alcalina de cenizas volantes. Caracterización de geles N-A-S-H en function del contenido de sílice soluble. Efecto del Na2SO4. PhD thesis, Universidad Autónoma de Madrid, Spain
Criado M, Fernández-Jiménez A, Palomo A, Sobrados I, Sanz J (2008) Effect of the SiO2/Na2O ratio on the alkali activation of fly ash. Part II: 29Si MAS-NMR survey. Microp Mesop Mat 109:525–534
Douglas E, Brandstetr J (1990) A preliminary study on the alkali activation of ground granulated blast-furnace slag. Cem Concr Res 20:746–756
Duxson P, Provis JL, Lukey GC, Separovic F, van Deventer JSJ (2005) 29Si NMR study of structural ordering in aluminosilicate geopolymer gels. Langmuir 21:3028–3036
Fernández-Jiménez A, Palomo A (2003) Characterisation of fly ashes. Potential reactivity as alkaline cements. Fuel 82:2259–2265
Fernández-Jiménez A, Palomo A (2005) MID-infrared spectroscopic studies of alkali-activated fly ash structure. Microp Mesop Mat 86:207–214
Fernández-Jiménez A, Palomo A, Alonso MM (2005) In: Bilek V, Kersner Z (eds) 2nd inter. symposium non-traditional cement & concrete, Brno University of Technology, p 1. ISBN: 80-214-2853-8
Fernández-Jiménez A, Palomo A, Sobrados I, Sanz J (2006) The role played by the reactive alumina content in the alkaline activation of fly ashes. Microp Mesop Mat 91:111–119
Ferraris CF, Obla KH, Hill R (2001) The influence of mineral admixtures on the rheology of cement paste and concrete. Cem Concr Res 31:245–255
Grzeszczyck S, Kucharska L (1987) Rheological properties of fresh cement pastes and clinker reactivit. Rheol Acta 26:566–569
Grzeszczyck S, Kucharska L (1990) Hydrative reactivity of cement and rheological properties of fresh cement pastes. Cem Concr Res 20:165–174
Hanehara S, Yamada K (1999) Interaction between cement and chemical admixture from the point of cement hydration, adsorption behaviour of admixture, and paste rheology. Cem Concr Res 29:1159–1165
Lachemi M, Hossain KMA, Lambros V, Nkinamubanzi PC, Bouzoubaâ N (2004) Performance of new viscosity modifying admixtures in enhancing the rheological properties of cement paste. Cem Concr Res 34:185–193
Lapasin R, Papo A, Rajgelj S (1983) The phenomenological description of the tixotropic behaviour of fresh cement pastes. Rheol Acta 22:410–416
Lee WKW, van Deventer JSJ (2002) Effects of anions on the formation of aluminosilicate gel in geopolymers. Ind Eng Chem Res 41:4550–4558
Madridmasd (2006) http://www.madridmasd.org/informationIDI/noticias
Palacios M (2006) Efecto de aditivos orgánicos en las propiedades de los cementos y morteros de escoria activada alcalinamente. PhD thesis. Universidad Autónoma de Madrid, Spain
Palacios M, Puertas F (2004) Stability of superplasticiser and shrinkage-reducing admixtures in high basic media. Mater Construcc 54:65–86
Palacios M, Puertas F (2005) Effect of superplasticiser and shrinkage-reducing admixtures on alkali-activated slag pastes and mortars. Cem Concr Res 35:1358–1367
Palacios M, Banfill PFG, Puertas F (2008) Rheology and setting of alkali-activated slag pastes and mortars: effect of organic admixture. ACI Mater J 105:140–148
Palomo A, Grutzeck MW, Blanco MT (1999) Alkali-activated fly ashes. A cement for the future. Cem Concr Res 29:1323–1329
Palomo A, Alonso S, Fernández-Jiménez A, Sobrados I, Sanz J (2004) Alkaline activation of fly ashes. A NMR study of the reaction products. J Am Ceram Soc 87:1141–1145
Palomo A, Banfill PFG, Fernández-Jiménez A, Swift DS (2005) Properties of alkali-activated fly ashes determined from rheological measurements. Adv Cem Res 17:143–151
Perrot A, Lanos C, Meligne Y, Estellé P (2007) Mortar physical properties evolution in extrusion flow. Rheol. Acta 46:1065–1073
Provis JL, Duxson P, Lukey GC, van Deventer JSJ (2005) Statistical thermodynamic model for Si/Al ordering in amorphous aluminosilicates. Chem Mater 17:2976–2986
Puertas F, Palomo A, Fernández-Jiménez A, Izquierdo JD, Granizo ML (2003) Effect of superplasticisers on the behaviour and properties of alkaline cements. Adv Cem Res 15:23–28
Richardson IG, Groves GW (1993) The incorporation of minor and trace elements into Calcium Silicate Hydrate (C-S-H) gel in hardened cement pastes. Cem Concr Res 23:131–138
Stuble LJ, Lei W-G (1995) Rheological Changes Associated with Setting of Cement Paste. Adv Cem Bas Mat 2:224–230
Tattersall GH, Banfill PFG (1983) The Rheology of Fresh Concrete. Pitman, London
Taylor HFW (1993) Nanostructure of C-S-H: current status. Adv Cem Bas Mat 1:38–46
Taylor HFW (1997) Cement chemistry. Thomas Telford, London
Uchikawa H, Sawaki D, Hanehara S (1995) Influence of kind and added timing of organic admixture on the composition, structure and property of fresh cement paste. Cem Concr Res 25:353–364
Yamada K, Takahashi T, Hanehara S, Matsurisa M (2000) Effects of the chemical structure on the properties of polycarboxylate-type superplasticiser. Cem Concr Res 30:197–207
Wallevik JE (2006) Relationship between the Bingham parameters and slump. Cem Concr Res 36:1214–1221
Acknowledgements
Funding for this research was provided by the Directorate General of Scientific Research under project BIA2006-28530-E; also, a post-doctoral contract associated with the study was awarded by the CSIC and co-financed by the European social fund (REF. I3P-PC2004L).
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Criado, M., Palomo, A., Fernández-Jiménez, A. et al. Alkali activated fly ash: effect of admixtures on paste rheology. Rheol Acta 48, 447–455 (2009). https://doi.org/10.1007/s00397-008-0345-5
Received:
Revised:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s00397-008-0345-5