References

STARCH MODIFIED CONCRETES EXPOSED TO AGGRESSIVE ACIDIC ENVIRONMENT


[1] A. A. Akindahunsi, H. C. Uzeogbo and S. E. Iyuke, Use of Starch Modified Concrete as a Repair Material, In Concrete Repair, Rehabilitation and Retrofitting III – Alexander et al. (eds.), Taylor & Francis Group, London, 2012.

[2] W. F. Chen and J. Y. R. Liew, Civil Engineering Handbook, Second Edition, CRC Press LLC, 2003.

[3] J. R. Clifton, G. Frohnsdorff and C. Ferraris, Standards for evaluating the susceptibility of cement-based materials to external attack, Published in Materials Science of Concrete-Sulphate Attack Mechanisms, Special volume (Proceedings from seminar on Sulphate attack mechanisms, Quebec, Canada, October 5-6, 1998), American Ceramic Society (1999), 337-355.

[4] A. Izaguirre, J. Lanas and J. I. Álvarez, Behaviour of a starch as a viscosity modifier for aerial lime-based mortars, Carbohydrate Polymers 80 (2010), 222-228.

[5] K. H. Khayat, Viscosity-enhancing admixtures for cement-based materials: An overview, Cement and Concrete Composites 20 (1998), 171-188.

[6] B. Kerkhoff, Concrete and Guide to Protective Treatments, Portland Cement Association, 2007.

[7] G. Owens, Fulton’s Concrete Technology, Cement & Concrete Institute, Midrand, South Africa, 2009.

[8] A. Peschard, A. Govin, P. Grosseau, B. Guilhot and R. Guyonnet, Effect of polysaccharides on the hydration of cement paste at early ages, Cement and Concrete Research 34 (2004), 2153-2158.

[9] S. Rols, J. Ambroise and J. Pera, Effects of different viscosity agents on the properties of self-levelling concrete, Cement and Concrete Research 29 (1999), 261-266.

[10] SANS 1083, The Council of the South African Bureau of Standards, Published by Standards South Africa, 1 drLategan road Groenkloof, Private bag x191 Pretoria 0001, 2006.

[11] H. Simonides and J. Terpstra, Use of innovative starch ethers for paving blocks and other concrete products, Concrete Technology, BFT 09 (2007).

[12] M. I. R. Susilorini, W. K. R. Dewi and T. Wibowo, The performance of early-age concrete with sea water curing, Journal of Coastal Development 8(2) (2005), 89-95.

[13] J. J. M. Swinkels, Composition and properties of commercial native starches, Starch/Starke 37(1) (1985), 1-5.

[14] E. M. Teixeira, A. A. S. Curvelo, A. C. Corrêa, J. M. Marconcini, G. M. Glenn, H. C. Luiz and L. H. C. Mattoso, Properties of thermoplastic starch from cassava bagasse and cassava starch and their blends with poly (lactic acid), Industrial Crops and Products 37 (2012), 61-68.

[15] R. I. Tixier and B. Mobasher, Modeling of damage in cement-based materials subjected to external sulphate attack, II: Comparison with experiments, Journal of Materials in Civil Engineering 15(4) (2003), 314-322.