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424 New Trends in Eco-efficient and Recycled Concrete
Zawrah, M.F., Gado, R.A., Feltin, N., Ducourtieux, S., Devoille, L., 2016. Recycling and uti-
lization assessment of waste fired-clay bricks (Grog) with granulated blast-furnace slag
for geopolymer production. Process Saf. Environ. Protect. 103, 237 251. Available
from: https://doi.org/10.1016/j.psep.2016.08.001.
Zhang, Z., Zhu, Y., Yang, T., Li, L., Zhu, H., Wang, H., 2017. Conversion of local industrial
wastes into greener cement through geopolymer technology: a case study of high-
magnesium nickel slag. J. Cleaner Prod 141, . Available from: https://doi.org/10.1016/j.
jclepro.2016.09.147463e471.
Zhu, W., Chen, X., Struble, L.J., Yang, E.H., 2018. Characterization of calcium-containing
phases in alkali-activated municipal solid waste incineration bottom ash binder through
chemical extraction and deconvoluted Fourier transform infrared spectra. J. Cleaner
Prod. 192, 782 789.
Further reading
Alkali Activated Materials, 2014. State-of-the-Art Report, RILEM TC 224-AAM.
Ferna ´ndez-Jime ´nez, A., Palomo, A., Criado, M., 2006. Alkali activated fly ash binders. A
comparative study between sodium and potassium activators. Materiales de
Construccio ´n 56, 51 65.
Lodeiro, I.G., Ferna ´ndez-Jimenez, A., Palomo, A., Macphee, D.E., 2010. Effect on fresh
CSH gels of the simultaneous addition of alkali and aluminium. Cem. Concr. Res. 40,
27 32.
Matschei, T., Lothenbach, B., Glasser, F., 2007. The AFm phase in Portland cement. Cem.
Concr. Res. 37, 118 130.
Venkatesan, R.P., Pazhani, K.C., 2016. Strength and durability properties of geopolymer con-
crete made with ground granulated blast furnace slag and black rice husk ash. Korean
Soc. Civ. Eng. J. Civ. Eng. 20 (6), 2384 2391. Available from: https://doi.org/10.1007/
s12205-015-0564-0.
