A novel modeling approach for self-healing concrete enhances predictive reliability, addressing early-stage variability and ...

Transforming copper mine waste into a construction binder through alkali activation presents a sustainable solution for lower ...

Utilizing quartz quarry dust in cement mortar improves mechanical properties and reduces reliance on natural sand, promoting ...

BEClimate today announced the launch of BEXchange, a carbon marketplace purpose-built for the built environment, developed in ...

The MIT HAUS team is pioneering 3D-printed floor trusses from recycled plastic, aiming to revolutionize sustainable ...

Laboratory findings show biochar's role in enhancing thermal resistance and moisture stability in living wall systems, promoting sustainable urban design.

This study reveals that high shear-dispersed nano-alumina boosts concrete performance, enhancing strength and durability for demanding infrastructure projects.

With the New Year home moving season in full flow, new consumer insights research from Switch Together reveals that buyers ...

A small dose of antifreeze agent dramatically improves frost resistance in recycled concrete, reshaping sustainable construction practices for cold regions.

Why are engineers turning to high-performance concrete? Discover the innovations driving stronger, more resilient structures worldwide.

The use of paper mill sludge ash in geocrete optimizes performance, demonstrating a viable approach to sustainable construction and industrial waste management.

MIT researchers have developed a machine learning framework that can identify sustainable natural and industrial materials to partially replace cement, offering a scalable path to significantly reduce ...