Adsorption of superplasticizers in fly ash blended cement pastes and its rheological effects

Wei Chen; Peiliang Shen; Zhonghe Shui; Jianfeng Fan

doi:10.1007/s11595-012-0546-8

Journal of Wuhan University of Technology Materials Science Edition ›› 2012, Vol. 27 ›› Issue (4) : 773 -778. DOI: 10.1007/s11595-012-0546-8

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Adsorption of superplasticizers in fly ash blended cement pastes and its rheological effects

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Abstract

The adsorption of superplasticizers in fly ash blended cement paste and its rheological effects were investigated. It is shown that the absorption of superplasticizer on portland cement particles is very different from that on fly ash particles. The fly ash particles have smooth surfaces and are negatively charged, so its adsorption capacity is weaker than the portland cement particles. The amount of adsorbed SP in the fly ash blended cement paste depends highly on the replacement proportion of portland cement with fly ash, and to a much less extent on the nature of the fly ash. However, the amount of adsorbed superplasticizer does not correspond well the ζ-potential of the solid particles, due the strong adsorbing capacities of the Portland cement particles. When fly ash replaces portland cement in the paste, the rheological behavior is radically changed, which is closely related to the fineness and density of the ash. The packing and agglomeration of the solid particles are the controlling factors on the rheological parameters of the fresh paste, instead of the amount and type of adsorbed superplasticizer.

Keywords

adsorption / fly ash / superplasticizer / ζ-potential / rheology

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Wei Chen, Peiliang Shen, Zhonghe Shui, Jianfeng Fan. Adsorption of superplasticizers in fly ash blended cement pastes and its rheological effects. Journal of Wuhan University of Technology Materials Science Edition, 2012, 27(4): 773-778 DOI:10.1007/s11595-012-0546-8

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References

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[1]	Li C.Z., Feng N.Q., Li Y.D., . Effects of Polyethlene Oxide Chains on the Perfonrmance of Polycarboxylate-type Water-reducers[J]. Cement and Concrete Research, 2005, 35(5): 867-873.

[2]	Aitcin P.C., Jolicoeur C., Macgregor James G. Superplasticizers: How they Work and Why They Occasionally Don’t[J]. Concrete International, 1994, 16(5): 45-52.

[3]	Bonen D., Sarkar S.L. The Superplasticizer Adsorption Capacity of Cement Pastes, Pore Solution Composition, and Parameters Affecting Flow Loss[J]. Cement and Concrete Research, 1995, 25(7): 1 423-1 434.

[4]

Houst Y.F., Flatt R.J., Bowen P., . Cabrera J.G., Rivera-Villareal R., . Influence of Superplasticizer Adsorption on the Rheology of Cement Paste[C]. Proceedings of the International Conference, The Role of Chemical Admixtures in high Performance Concrete, 1999 Monterrey, Mexico RILEM Publications SARL 387-402.

[5]	Plank J., Hirsch C. Impact of ζ-potential of Early Cement Hydration Phases on Superplasticizer Adsorption[J]. Cement and Concrete Research, 2007, 37(4): 537-542.

[6]	Guan B.H., Ye Q.Q., Zhang J.L., . Interaction between Alpha-calcium Sulfate Hemihydrate and Superplasticizer from the Point of Adsorption Characteristics, Hydration and Hardening Process[J]. Cement and Concrete Research, 2010, 40(2): 253-259.

[7]	Kim B.G., Jiang S.P., Jolicoeur C., . The Adsorption Behavior of PNS Superplasticizer and Its Relation to Fluidity of Cement Paste[J]. Cement and Concrete Research, 2000, 30(6): 887-893.

[8]	Gao P.W., Deng M., Feng N.Q. The Influence of Superplasticizer and Superfine Mineral Powder on the Flexibility, Strength and Durability of HPC[J]. Cement and Concrete Research, 2001, 31(5): 703-706.

[9]	Chandra S., Bjornstrom J. Influence of Cement and Superplasticizers Type and Dosage on the Fluidity of Cement Mortars — Part I[J]. Cement and Concrete Research, 2002, 32(10): 1 605-1 611.

[10]	Hsu K.C., Chiu J.J., Chen S.D., . Effect of Addition Time of a Superplasticizer on Cement Adsorption and on Concrete Workability[J]. Cement and Concrete Composites, 1999, 21(5–6): 425-430.

[11]	Ferrari L., Kaufmann J., Winnefeld F., . Interaction of Cement Model Systems with Superplasticizers Investigated by Atomic Force Microscopy, Zeta Potential, and Adsorption Measurements[J]. Journal of Colloid and Interface Science, 2010, 347(1): 15-24.

[12]	Collepardi M. Admixtures Used to Enhance Placing Characteristics of Concrete[J]. Cement and Concrete Composites, 1998, 20(2–3): 103-112.

[13]	Krishna R.N. Dispersing Action of a Superplasticizer with Different Grades of Cements and Fly Ash[J]. ACI materials Journal, 1996, 93(4): 351-355.

[14]	Nagataki S., Sakai E., Takeuchi T. The Fluidity of Fly ash-cement Paste with Superplasticizer[J]. Cement and Concrete Research, 1984, 14(5): 631-638.

[15]	Tanaka I., Suzuki N., Ono Y., . Fluidity of Spherical Cement and Mechanism for Creating High Fluidity[J]. Cement and Concrete Research, 1998, 28(1): 63-74.

[16]	Flatt R.J. Interparticle Forces and Superplasticizers in Cement Suspensions[D], 1999 Lausanne, Switzerland EPFL

[17]	Zhang R.G., Guo H.L., Lei J.H., . Effect of Molecular Structure on the Performance of Polyacrylic Acid Superplasticizer[J]. Journal of Wuhan University of Technology-Material Science Edition, 2008, 22(2): 245-249.

[18]	Sakai E, Daimon M. Mechanisms of Superplastification. Materials Science of Concrete IV[M]. Skalny J and Mindess S, Westerville OH, The Amercian Ceramic Society, 1995: 91–111

[19]	Borsoi A., Collepardi S., . Effect of Superplasticizer Type on the Performance of High-Volume Fly Ash Concrete[C]. Superplasticizers and Other Chemical Admixtures in Concrete, Proceedings of the Sixth CANMET/ACI International Conference, 2000 VM Malhotra American Concrete Institute 17-28.