Concrete has a tremendous influence on the environment since the majority of its
composition is cement, which is a material that emits high levels of carbon dioxide. It is …

Concrete is the most produced construction material in the world and has a close tie to
carbon dioxide emissions. To reduce the gas pollution and resource drain of cement …

The present study evaluates the application of class F fly ash as a partial replacement of
binder in concrete. The compressive strength of the fly ash samples showed low early …

In this study, the potential of converting iron ore tailings (IOTs) into sustainable building
materials was explored. IOTs were combined with fly ash (FA) and ground granulated blast …

Construction sector is mainly liable for waning of natural resources and environmental
imbalances due to its unplanned mining activities. The massive use of concrete due to boom …

Abstract Properties of alkali-activated fly ash and GGBFS blended mortar using waste glass
cullet were investigated. Workability of mortar was found to increase by glass aggregate due …

In this study, we investigated the compressive strength, drying shrinkage, creep, and CO 2
emissions per unit volume of concrete containing fly ash or ground granulated blast-furnace …

Ferronickel slag (FNS) is a solid waste produced in the smelting of ferronickel alloys. FNS is
classified as blast furnace ferronickel slag (BFS) and electric furnace ferronickel slag (EFS) …

Infrastructure design, construction and development experts are making frantic efforts to
overcome the overbearing effects of greenhouse gas emissions resulting from the continued …

Alkali-activated ground-granulated blast-furnace slag (GGBFS) and fly ash (FA)
geopolymers are sustainable alternatives to cement. The incorporation of polyvinyl alcohol …