Mechanical Performance and Thermo-Physical Properties of Cement Mortar Incorporating Hybrid Slags
الملخص
Owing to the growing environmental pressure to reduce waste and pollution, the effective
utilization of industrial solid wastes in construction applications has gained notable
attention. This study investigates the mechanical and thermal properties of cement
mortars incorporating two types of waste slags. Ferrochrome (FeCr) slag aggregate
was used as a replacement for sand at the ratios of 25, 50, 75 and 100 wt. %. Ground
granulated blast furnace slag (GGBS) has been used as a partial replacement of cement
at the ratio of 25 wt. %. Compressive strength, permeable voids content and thermal
conductivity tests have been conducted after 28 days of curing. The microstructure
characteristics have been investigated by scanning electron microscope (SEM) equipped
with energy dispersive analytical x-ray unit (EDAX). The experimental results revealed
that FeCr waste aggregates could satisfactorily replace for natural fine sand in cement
mortars up to 25 wt. % without a remarkable degradation of the compressive strength.
Furthermore, Increasing replacement ratios of FeCr aggregates over 25 wt. % have
resulted in noticeable decrease in thermal conductivity and an increase in the permeable
voids content of cement mortars. The integration of GGBS with FeCr aggregates leads
to enhanced compressive strength, reduced voids content and contribute to improved
microstructure. The developed mortars with comparatively improved thermal resistance
can be recommended for several structural and non-structural applications especially in
hot weather regions.