Rheological properties of self-compacting concrete paste containing chemical admixtures

Baoguo Ma; Huixian Wang

doi:10.1007/s11595-013-0681-x

Journal of Wuhan University of Technology Materials Science Edition ›› 2013, Vol. 28 ›› Issue (2) : 291 -297. DOI: 10.1007/s11595-013-0681-x

Cementitious Materials

Rheological properties of self-compacting concrete paste containing chemical admixtures

Baoguo Ma ¹⁶⁸¹
, Huixian Wang ¹⁶⁸¹^,²⁶⁸¹^,^{^b}

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Abstract

Self-compacting concrete (SCC) was used for the filling layer of CRTSIII plate ballastless track, which needs excellent workability. The rheological properties of SCC cement paste containing chemical admixtures (CA) such as polycarboxylate-based superplasticizer (PCE), air-entraining agent (AE) and defoamer (DF) were investigated using a Brookfield R/S SST2000 soft solid tester with a vane geometry spindle. The cementitious materials were designed as one, two and, three components systems by addition of ordinary portland cement (OPC) with these chemical admixtures. The rheological properties of one-component system (PCE paste) were improved with increasing the content of PCE. For two components systems of PCE-AE and PCE-DF, yield stress and plastic viscosity reduced firstly and increased afterward with the increasing of AE content. And the plastic viscosity reached the optimum when the content of AE is 0.004wt%. In general, the trend of yield stress and plastic viscosity decreased with the increasing of the DF content. For three components systems, PCE-AE-DF systems, the rheological properties were improved compared with the sample with AE or DF, which attributed to mixes of the active components mentioned above (CA) which could have a synergetic effect.

Keywords

rheology / self-compacting concrete / air-entraining agent / defoamer / high-speed railway ballasted track

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Baoguo Ma, Huixian Wang. Rheological properties of self-compacting concrete paste containing chemical admixtures. Journal of Wuhan University of Technology Materials Science Edition, 2013, 28(2): 291-297 DOI:10.1007/s11595-013-0681-x

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References

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[1]	Okamura H, Ouchi M Self Compacting Concrete. Development, Present Use and Future[C]. Self Compacting Concrete, Proceedings of the First International RILEM Symposium, Stockholm, Sweden, 1999 3-14.

[2]	Skarendahl A The Present-The Future[C]. Self Compacting Concrete, Proceedings of the third International RILEM Symposium, Reykjavik, Iceland, 2003 6-14.

[3]	Walraven J Structural Aspects of Self Compacting Concrete[C]. Self Compacting Concrete, Proceedings of the third International RILEM Symposium, Reykjavik, Iceland, 2003 15-22.

[4]	Collepardi M Admixtures Used to Enhance Placing Characteristics of Concrete [J]. Cem. Concr. Compos., 1998, 20(2–3): 103-112.

[5]	Golaszewski J Influence of Cement Properties on New Generation Superplasticizers Performance[J]. Constr. Build. Mater., 2012, 35: 586-596.

[6]	Petit JY, Wirquin E, Helnan-Moussa B Effect of W/C and Superplasticizer Type on Rheological Parameters of SCC Repair Mortar for Gravitational or Light Pressure Injection [J]. Cem. Concr. Compos., 2011, 33(10): 1 050-1 056.

[7]	Hsu KC, Chiu JJ, Chen SD, . Effect of Addition Time of a Superplasticizer on Cement Adsorption and on Concrete Workability [J]. Cem. Concr. Compos., 1999, 21(5–6): 425-430.

[8]	Khayat KH, Assaad J Air-void Stability in Self-consolidating Concrete [J]. ACI Mater. J., 2002, 994: 408-416.

[9]	Plante P, Pigeon M, Foy C The Influence of Water-reducers on the Production and Stability of the Air Void System in Concrete [J]. Cem. Concr. Res., 1989, 94: 621-633.

[10]	Beaupre D, Lacombe P, Khayat KH Laboratory Investigation of Rheological Properties and Scaling Resistance of Air Entrained Self-consolidating Concrete [J]. Mater. Struct., 1999, 32(3): 235-240.

[11]	Mailvaganam NP, Rixom MR Chemical Admixtures for Concrete [M], 1999 3rd edition

[12]	Lange A, Plank J Study on the Foaming Behaviour of Allyl Etherbased Polycarboxylate Superplasticizers [J]. Cem. Concr. Res., 2012, 422: 484-489.

[13]	Łazniewska-Piekarczyk B The Influence of Anti-foaming Admixtures on Properties Self-compacting Mix and Concrete [J]. Cem. Wapno. Beton., 2010, 3: 164-168.

[14]	Fang GM, Yu T, Liu CK, . Compound Research of Polycarboxylic Acid and Various Other Aids [J]. Ready-mixed Concrete, 2012, 2: 48-50.

[15]	Li J Research on the Performance of the Filling Layer Self-compacting Concrete in Slab Track of High-speed Railway[D], 2011 Wuhan Wuhan University of Technology

[16]	Huang J Technology Research on the Self-compacting Concrete of High-speed Rail Ballastless Track Structure Filling Layer[D], 2011 Changsha Central South University

[17]	Nawa T, Eguchi H, Hukara Y Effect of Alkali Sulfate on the Rheological Behavior of Cement Paste Containing a Superplasticizer[C]. 3rd CANMET/ACI International Conference on Superplasticizers and Other Chemical Admixtures in Concrete, 1989 405-424.

[18]	Pellenq RJM, Caillol JM, Delville A Electrostatic Attraction between Two Charged Surface: a (N, V, T) Monte Carlo Simulation [J]. J. Phys. Chem., B, 1997, 101: 8 584-8 594.

[19]	Ouyang X, Guo Y, Qiu X The Feasibility of Synthetic Surfactant as an Air Entraining Agent for the Cement Matrix [J]. Constr. Build. Mater., 2008, 22: 1 774-1 779.

[20]	Denkov ND, Cooper P, Martin JY Mechanisms of Action of Mixed Solid-liquid Antifoams. 1. Dynamics of Foam Film Rupture [J]. Langmuir, 1999, 1524: 8 514-8 529.

[21]	Denkov ND Mechanisms of Action of Mixed Solid-liquid Antifoams. 2. Stability of Oil Bridges in Foam Films [J]. Langmuir, 1999, 15(24): 8 530-8 542.