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International Journal of Pavement Engineering Volume 15, 2014 - Issue 10
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Articles

State-of-the-art report on use of nano-materials in concrete

Md. SafiuddinSchool of Architectural Studies and Angelo Del Zotto School of Construction Management, George Brown College, 160 Kendal Avenue, Toronto, Ontario, CanadaM5T 2T9Correspondence[email protected]
,
Marcelo GonzalezCentre for Pavement and Transportation Technology (CPATT), Department of Civil and Environmental Engineering, University of Waterloo, 200 University Avenue West, Waterloo, Ontario, CanadaN2L 3G1
,
Jingwen CaoCentre for Pavement and Transportation Technology (CPATT), Department of Civil and Environmental Engineering, University of Waterloo, 200 University Avenue West, Waterloo, Ontario, CanadaN2L 3G1
&
Susan L. TigheCentre for Pavement and Transportation Technology (CPATT), Department of Civil and Environmental Engineering, University of Waterloo, 200 University Avenue West, Waterloo, Ontario, CanadaN2L 3G1
Pages 940-949 | Received 08 Nov 2013, Accepted 07 Dec 2013, Published online: 14 Mar 2014

References

  • Ali, N. and Shadi, R., 2011. TiO2 nanoparticles' effects on properties of concrete using ground granulated blast furnace slag as binder. Science China, 54 (11), 3109–3118.
  • Ashby, M., Ferreira, P., and Schodek, D., 2009. Nanomaterials, nanotechnologies and design: an introduction for engineers and architects. Boston, MA: Elsevier Science Ltd.
  • Balaguru, P. and Chong, K., 2008. Nanotechnology and concrete: research opportunities. In: Nanotechnology of concrete: recent developments and future perspectives (ACI SP-254). Detroit, MI: American Concrete Institute.
  • Bensted, J. and Barnes, P., 2002. Structure and performance of cements. 2nd ed.London, UK: Spon Press.
  • Birgisson, B., Taylor, P., Armaghani, J., and Shah, P.S., 2010. American road map for research for nanotechnology-based concrete material. Transportation Research Record: Journal of the Transportation Research Board, 2142, 130–137.
  • Cement Association of Canada (CAC), 2012. Design and control of concrete mixtures. 8th Canadian ed.Ottawa: Cement Association of Canada.
  • Cement Association of Canada (CAC), 2013. Available from: www.cement.ca [Accessed 25 March 2013].
  • Chen, J., Kou, S., and Poon, C., 2012. Hydration and properties of nano-TiO2 blended cement composites. Cement & Concrete Composites, 34, 642–649.
  • Diamanti, M.V., Ormellese, M., and Pedeferri, M., 2008. Characterization of photocatalytic and superhydrophilic properties of mortars containing titanium dioxide. Cement and Concrete Research, 38, 1349–1353.
  • Flores, I., et al., 2010. Performance of cement system with nano-SiO2 particles produced by using the sol-gel method. Transportation Research Record: Journal of the Transportation Research Board, 2141, 10–14.
  • Gaitero, J.J., Campillo, I., and Guerrero, A., 2008. Reduction of the calcium leaching rate of cement paste by addition of silica nanoparticles. Cement and Concrete Research, 38, 1112–1118.
  • Gay, C. and Sanchez, F., 2010. Performance of carbon nanofiber–cement composites with a high-range water reducer. Transportation Research Record: Journal of the Transportation Research Board, 2142, 109–113.
  • Gonzalez, M., Safiuddin, Md., Cao, J., and Tighe, S., 2013. Sound absorption and friction responses of nano-concrete for rigid pavements. In: Proceedings of TRB 2013 annual meeting. Washington, DC: Transportation Research Board.
  • Gopalakrishnan, K., Birgisson, B., Taylor, P., and Attoh-Okine, N., 2011. Nanotechnology in civil infrastructure: a paradigm shift. Berlin-Heidelberg: Springer-Verlag.
  • Hamdy, A. and Ion, T., 2011. Nanocoatings and ultra-thin films: technologies and applications. Cambridge, UK: Woodhead Publishing Limited.
  • He, X. and Shi, X., 2008. Chloride permeability and microstructure of Portland cement mortars incorporating nanomaterials. Transportation Research Record: Journal of the Transportation Research Board, 2070, 13–21.
  • Hosseini, P., Booshehrian, A., and Farshchi, S., 2010. Influence of nano-SiO2 addition on microstructure and mechanical properties of cement mortars for ferrocement. Transportation Research Record: Journal of the Transportation Research Board, 2141, 15–20.
  • Hosseini, P., Booshehrian, A., and Madari, A., 2011. Developing concrete recycling strategies by utilization of nano-SiO2 particles. Waste and Biomass Valorization, 2, 347–355.
  • Jalal, M., 2012. Durability enhancement of concrete by incorporating titanium dioxide nanopowder into binder. Journal of American Science, 8 (4), 289–294.
  • Jalal, M. and Noorzad, A., 2012. Effect of binder content, pozzolanic admixtures and SiO2 nanoparticles on thermal properties and capillary water absorption of high performance concrete. Journal of American Science, 8 (7), 395–399.
  • Jalal, M., Ramezanianpour, A.A., and Pool, M.K., 2012. Effects of titanium dioxide nanopowder on rheological properties of self compacting concrete. Journal of American Science, 8 (4), 285–288.
  • Ji, T., 2005. Preliminary study on the water permeability and microstructure of concrete incorporating nano-SiO2. Cement and Concrete Research, 35, 1943–1947.
  • Li, G.Y., Wang, P.M., and Zhao, X., 2005. Mechanical behavior and microstructure of cement composites incorporating surface-treated multi-walled carbon nanotubes. Carbon, 43 (6), 1239–1245.
  • Li, G.Y., Wang, P.M., and Zhao, X., 2007a. Pressure-sensitive properties and microstructure of carbon nanotube reinforced cement composites. Cement & Concrete Composites, 29, 377–382.
  • Li, H., Xiao, H., and Ou, J., 2004. A study on mechanical and pressure-sensitive properties of cement mortar with nanophase materials. Cement and Concrete Research, 34, 435–438.
  • Li, H., Zhang, M., and Ou, J., 2007b. Flexural fatigue performance of concrete containing nano-particles for pavement. International Journal of Fatigue, 29 (7), 1292–1301.
  • Li, Z., et al., 2006. Investigations on the preparation and mechanical properties of the nano-alumina reinforced cement composite. Materials Letters, 60, 356–359.
  • Lin, D.F., et al., 2008a. Improvements of nano-SiO2 on sludge/fly ash mortar. Waste Management, 28, 1081–1087.
  • Lin, K.L., et al., 2008b. Effects of nano-SiO2 and different ash particle sizes on sludge ash–cement mortar. Journal of Environmental Management, 88, 708–714.
  • Metaxa, Z.S., Konsta-Gdoutos, M.S., and Shah, S.P., 2010. Carbon nanofiber–reinforced cement-based materials. Transportation Research Record: Journal of the Transportation Research Board, 2142, 114–118.
  • Mondal, P., Shah, S.P., Marks, L.D., and Gaitero, J.J., 2010. Comparative study of the effects of microsilica and nanosilica in concrete. Transportation Research Record: Journal of the Transportation Research Board, 2141, 6–9.
  • Mudimela, P.R., et al., 2009. Synthesis of carbon nanotubes and nanofibers on silica and cement matrix materials. Journal of Nanomaterials, 2009, Article ID 526128, 4 pp.
  • Napierska, D., et al., 2010. The nanosilica hazard: another variable entity. Particle and Fibre Toxicology, 7, 32 p.
  • Nasibulina, L.I., et al., 2010. Direct synthesis of carbon nanofibers on cement particles. Transportation Research Record: Journal of the Transportation Research Board, 2142, 96–101.
  • National Research Council of Canada (NRCC), 2013. The effect of SWCNT and other nanomaterials on cement hydration and reinforcement. NRCC Research Report 53569. Available from: http://www.nrc-cnrc.gc.ca [Accessed 04 April 2013].
  • Quercia, G. and Brouwers, H.J.H., 2010. Application of nano-silica (nS) in concrete mixtures. In: Proceedings of the 8th fib PhD symposium. Lyngby, Denmark: Kgs.
  • Quercia, G., Husken, G., and Brouwers, H.J.H., 2012. Water demand of amorphous nano silica and its impact on the workability of cement paste. Cement and Concrete Research, 42, 344–357.
  • Rashid, K.A.A., 2012. Nanotechnology-based system for damage-resistant concrete pavements. Texas: Zachry Department of Civil Engineering, Texas A&M University. Research Report No. SWUTC/12/476660-00017-1.
  • Said, A.M., Zeidan, M.S., Bassuoni, M.T., and Tian, Y., 2012. Properties of concrete incorporating nano-silica. Construction and Building Materials, 36, 838–844.
  • Sanchez, F. and Sobolev, K., 2010. Nanotechnology in concrete – a review. Construction and Building Materials, 24, 2060–2071.
  • Selvam, R.P., Subramani, V.J., Murray, S., and Hall, K., 2009. Potential application of nanotechnology on cement based materials. Fayetteville: University of Arkansas, Research Report No. MBTC DOT 2095/3004.
  • Shekari, A.H. and Razzaghi, M.S., 2011. Influence of particles on durability and mechanical properties of high performance concrete. Procedia Engineering, 14, 3036–3041.
  • Shih, J., Chang, T., and Hsiao, T., 2006. Effect of nanosilica on characterization of Portland cement composite. Materials Science and Engineering A, 424, 266–274.
  • Shirgir, B., Hassani, A., and Khodadadi, A., 2011. Experimental study on permeability and mechanical properties of nanomodified porous concrete. Transportation Research Record: Journal of the Transportation Research Board, 2240, 30–35.
  • Skinner, L.B., et al., 2010, 195502Nanostructure of calcium silicate hydrates in cements. Physical Review Letters, 104, 1–4.
  • Strategic Development Council, 2002. Roadmap 2030: The U.S. concrete industry technology roadmap, version 1.0.Detroit, MI: American Concrete Institute.
  • Toutanji, H.A., E1-Korchi, T., and Katz, R.N., 1994. Strength and reliability of carbon–fiber–reinforced cement composites. Cement & Concrete Composites, 16, 15–21.
  • Tylor, H.F.W., 1997. Cement chemistry. 2nd ed.London, UK: Thomas Telford Ltd.
  • Tyson, B.M., Abu Al-Rub, R.K., Yazdanbakhsh, A., and Grasley, Z., 2011. Carbon nanotubes and carbon nanofibers for enhancing the mechanical properties of nanocomposite cementitious materials. Journal of Materials in Civil Engineering, 23 (7), 1028–1035.
  • Waterloo Institute for Nanotechnology (WIN), 2012. Available from: http://uwaterloo.ca/institute-nanotechnology [Accessed 02 January 2013].
  • Zhang, M. and Li, H., 2011. Pore structure and chloride permeability of concrete containing nano-particles for pavement. Construction and Building Materials, 25, 608–616.
  • Zhang, X., et al., 2007. Ultrastrong, stiff, and lightweight carbon–nanotube fibers. Advanced Material, 19, 4198–4201.
  • Zhou, Z.P., et al., 2009. Development of carbon nanofibers from aligned electrospun polyacrylonitrile nanofiber bundles and characterization of their microstructural, electrical, and mechanical properties. Polymer, 50, 2999–3006.

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