TY - JOUR
T1 - Scientific and technical studies on eco-efficient binary cements produced with thermally activated ichu grass
T2 - Behaviour and properties
AU - Frías, Moisés
AU - Caneda-Martínez, Laura
AU - Sánchez de Rojas, M. Isabel
AU - Tenazoa, Carlos
AU - Flores, Elena
N1 - Publisher Copyright:
© 2020 Elsevier Ltd
PY - 2020/8
Y1 - 2020/8
N2 - The present research study analyses, for the first time, the viability of using thermally activated ichu grass as a supplementary cementitious material for the design of future eco-cements. To this end, the ichu ash resulting from the activation was characterised and its pozzolanic activity, the evolution of its mineralogical phases during the pozzolanic reaction and the physical-mechanical behaviour of the blended cementitious matrices were analysed. The results show that ichu ash exhibited high pozzolanic activity in a pure pozzolan/lime system as a consequence of its high reactive silica content. Conversely, its use in a pozzolan/cement system gave rise to negative effects due to the presence of important alkali contents in the ash (9.6% Na2O eq). The blended cements presented greater water demand, reduced capillary absorption, increased resistivity and lower mechanical properties (10–14%) as well as reduced average pore size than the reference mortar. These blended cement matrices comply with the physical-mechanical requirements established in the standards for the production of eco-cements.
AB - The present research study analyses, for the first time, the viability of using thermally activated ichu grass as a supplementary cementitious material for the design of future eco-cements. To this end, the ichu ash resulting from the activation was characterised and its pozzolanic activity, the evolution of its mineralogical phases during the pozzolanic reaction and the physical-mechanical behaviour of the blended cementitious matrices were analysed. The results show that ichu ash exhibited high pozzolanic activity in a pure pozzolan/lime system as a consequence of its high reactive silica content. Conversely, its use in a pozzolan/cement system gave rise to negative effects due to the presence of important alkali contents in the ash (9.6% Na2O eq). The blended cements presented greater water demand, reduced capillary absorption, increased resistivity and lower mechanical properties (10–14%) as well as reduced average pore size than the reference mortar. These blended cement matrices comply with the physical-mechanical requirements established in the standards for the production of eco-cements.
KW - Binary eco-cement
KW - Ichu ash
KW - Physical-mechanical properties
KW - Pozzolanic behaviour
UR - http://www.scopus.com/inward/record.url?scp=85082971441&partnerID=8YFLogxK
U2 - 10.1016/j.cemconcomp.2020.103613
DO - 10.1016/j.cemconcomp.2020.103613
M3 - Article
AN - SCOPUS:85082971441
SN - 0958-9465
VL - 111
JO - Cement and Concrete Composites
JF - Cement and Concrete Composites
M1 - 103613
ER -