Impact of Additions on Hydration Kinetics

  • Newlands, K. C., & Macphee, D. E. (2017). The reactivity of aluminosilicate glasses in cements – effects of Ca content on dissolution characteristics and surface precipitation. Advances in Applied Ceramics, 0(0), 1–9.
    doi.org/10.1080/17436753.2017.1299986
  • Newlands, K. C., Foss, M., Matchei, T., Skibsted, J., & Macphee, D. E. (2017). Early stage dissolution characteristics of aluminosilicate glasses with blast furnace slag- and fly-ash-like compositions, J Amer Ceram Soc, (May 2016), 1–15.
    doi.org/10.1111/jace.14716
  • Berodier E., Scrivener K., Evolution of pore structure in blended systems, Cement and Concrete Research, Volume 73, July 2015, Pages 25–35
    10.1016/j.cemconres.2015.02.025
  • Berodier, E., Scrivener, K. (2014), Understanding the Filler Effect on the Nucleation and Growth of C-S-H. Journal of the American Ceramic Society.
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  • PhD Thesis
    Impact of the Supplementary Cementitious Materials on the kinetics and microstructural development of cement hydration, Elise Berodier [PDF]
  • PhD Thesis
    The early stage dissolution characteristics of aluminosilicate glasses, Katrina Newlands [PDF]
  • E. Berodier, K. Scrivener, Impact of filler on hydration kinetics, Proceedings of 32nd Cement and Concrete Science 2012, Belfast, UK [PDF]
  • E. Berodier, B. Mota Gasso, K. Scrivener, Microstructure development on filler surface in blended systems at the early hydration period, Proceedings of the14th Euroseminar on Microscopy Applied to Building Materials, 2013, Denmark [PDF]
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