Geopolymer monoliths with controlled lamellar macroporosity and total porosity ranging from 60% to 70% were prepared by ice-templating a partially eopolymerized slurry. Both the maturation treatment of the starting mixture and the water specifically added for freeze-casting were tailored to modify both the geopolymerization and viscosity of the slurry, and, consequently, its freezing behavior, in order to optimize the final lamellar architecture. Following a room temperature maturation treatment, a 50% water content added for freezing developed thick lamellae and wide pores. A lower water content (30%) and curing at 80 C after maturation at room temperature (for both 50% and 30% H2O) was conducive to a narrow lamellar pore width distribution in the 30–130 mm range. However, the consumption of water due to geopolymerization in samples cured at 80 C led to a decreased length and thickness of the lamellae. Lastly, the interparticle meso- and macropores (0.003 to 1 mm) within the geopolymer lamellae were only slightly modified by the maturation treatment.
Insights into the macroporosity of freeze-cast hierarchical geopolymers / Papa, Elettra; Medri, Valentina; Benito Martin, Patricia; Vaccari, Angelo; Bugani, Simone; Jaroszewicz, Jakub; Landi, Elena. - In: RSC ADVANCES. - ISSN 2046-2069. - STAMPA. - 6:(2016), pp. 24635-24644. [10.1039/c6ra02232d]
Insights into the macroporosity of freeze-cast hierarchical geopolymers
PAPA, ELETTRA;BENITO MARTIN, PATRICIA;VACCARI, ANGELO;BUGANI, SIMONE;
2016
Abstract
Geopolymer monoliths with controlled lamellar macroporosity and total porosity ranging from 60% to 70% were prepared by ice-templating a partially eopolymerized slurry. Both the maturation treatment of the starting mixture and the water specifically added for freeze-casting were tailored to modify both the geopolymerization and viscosity of the slurry, and, consequently, its freezing behavior, in order to optimize the final lamellar architecture. Following a room temperature maturation treatment, a 50% water content added for freezing developed thick lamellae and wide pores. A lower water content (30%) and curing at 80 C after maturation at room temperature (for both 50% and 30% H2O) was conducive to a narrow lamellar pore width distribution in the 30–130 mm range. However, the consumption of water due to geopolymerization in samples cured at 80 C led to a decreased length and thickness of the lamellae. Lastly, the interparticle meso- and macropores (0.003 to 1 mm) within the geopolymer lamellae were only slightly modified by the maturation treatment.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
