Fly ash (FA) is a residual from thermal industries that has been effectively utilized in the
production of FA‐based geopolymer concrete (FGPC). To avoid time‐consuming and costly …

A machine learning technique provides rapid access to various information models,
approaches, complex systems, and algorithms. In the present scenario the artificial neural …

The ultrafine fly ash (FA) is a hazardous material collected from coal productions, which has
been proficiently employed for the manufacturing of geopolymer concrete (GPC). In this …

For the production of geopolymer concrete (GPC), fly-ash (FA) like waste material has been
effectively utilized by various researchers. In this paper, the soft computing techniques …

Cement composites have the intrinsic drawback of low flexural strength and crack
endurance. Many studies have been conducted to improve the mechanical performance of …

Modern infrastructure requirements necessitate structural components with improved
durability and strength properties. The incorporation of nanomaterials (NMs) into concrete …

This experimental research examines the electromechanical properties of hybrid cement-
mortar composites strengthened with different amounts of multi-walled carbon nanotubes …

The strength of carbon nanotubes (CNTs) and cement composites is dependent on multiple
variables. In addition, CNTs added to a cement-based matrix can boost its strength …

Biomimetic agents and natural fibers are the promising combo to enhance the strength and
self-healing efficacy of concrete infrastructures. However, their contribution in durability and …

Multipurpose cement composites are required for the sustainable development of the
construction industry. Incorporation of nanomaterials can produce high-performing and …