Cement industries that produce the primary component of concrete remain one of the main
challenges to the world since they change the climate and possess a negative impact on …

Fiber-reinforced geopolymer composites (FRGCs) were considered in terms of application in
various areas, and a review is presented in this article. FRGCs are emerging as …

The construction sector is a significant contributor to global greenhouse gas emissions,
resource depletion, and environmental degradation. Therefore, sustainable development in …

Conventional Portland cement-based composites are inherently weak under tensile
stresses, due to its high brittleness quotient, and the problem gets further aggravated in …

Engineered cementitious composite (ECC) featuring extraordinary tensile ductility is a
promising option for many structural applications but its large-scale manufacture is not eco …

Portland cement (PC) is considered the most energy-intensive building material and
contributes to around 10% of global warming. It exacerbates global warming and climate …

The article describes the state of the art in reinforced geopolymers, taking into consideration
various types of polymer fiber reinforcements, such as polypropylene, polyethylene, or …

The use of ecological materials for building and industrial applications contributes to
minimizing the environmental impact of new technologies. In this context, the cement and …

Geopolymer technology has allowed the development of eco-friendly construction materials
with high mechanical properties using industrial wastes and residues. However …

Strain hardening cementitious concrete is a type of fibre reinforced concrete with enhanced
mechanical properties, including strain hardening and ductility. Geopolymer (cement-free) …