Research shows Roman concrete's advantages are not inherent; sustainability is linked to energy sources used in its ...

Integrating waste foundry sand with SCMs like metakaolin and silica fume significantly boosts concrete strength and ...

This study reveals a machine learning approach to find lower-carbon cement substitutes, offering a scalable solution to ...

Innovative lightweight concrete combining nano-silica and EPS shows significant improvements in thermal insulation and ...

This study presents a dual-recycling approach, integrating e-cigarette butts and reclaimed asphalt in stone mastic asphalt ...

Iron tailings sand improves concrete properties under cyclic loading, with optimal performance at 30%-40% replacement, enhancing strength and energy absorption.

It is possible to create little to no rubbish from building construction in regional towns, but the chain of responsibility ...

Explore how construction firms can meet evolving ESG standards through site-level execution, supplier accountability, digital ...

Stanford's innovative cement alternative, derived from volcanic ash, promises a sustainable future for construction by ...

Chitosan-enhanced clay bricks offer improved thermal insulation and structural strength, paving the way for sustainable energy-efficient construction materials.

Innovative AI techniques in cement formulation lead to eco-friendly mixes, significantly cutting emissions and improving efficiency in construction materials.

The study highlights machine learning's role in predicting concrete strength with industrial waste, promoting low-carbon solutions in the construction industry.