This study presents a high-performance concrete blend with palm ash and jute fiber, achieving a 20% reduction in carbon ...

This study presents a flexible strategy to convert polyethylene waste into advanced materials, featuring tunable properties ...

New research shows steel I- and T-sections inside concrete beams can offset shear loss from web openings—enhancing safety in ...

The study on mine tailings as SCMs underscores their potential to reduce cement use and support greener construction ...

Researchers have found that mixing jute fibers with bacteria can make concrete stronger and more durable—offering a greener, ...

Why do marine structures fail early, and what can we build with instead? Explore how engineers are rethinking materials in ...

Scientists have used AI and advanced modeling to design greener cement mixes, cutting carbon emissions without sacrificing strength and offering a faster, more efficient route to sustainable ...

The study shows that DAANAC exhibits strong thermal and photochemical stability yet remains highly responsive to mechanical ...

In the construction industry, adhering to evolving regulations is not just a legal requirement—it is a safeguard for workers, clients, and projects alike. These regulations, from international and ...

Researchers have developed a chitosan-enhanced clay brick that significantly improves thermal insulation while maintaining structural strength, offering a sustainable solution for energy-efficient ...

First up is 3D printing, also known as additive manufacturing. This technology is becoming a practical tool in construction using computer-aided design (CAD) to create structures layer by layer. This ...

Researchers have developed a machine learning-based approach to accurately predict the compressive strength of concrete made with industrial waste, offering a faster and more efficient alternative to ...