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

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

There is growing concern about the environmental impact generated by key industrial sectors, especially in areas such as ...

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

Explore how urban mining is reshaping construction by recovering valuable materials from buildings and infrastructure. Learn ...

This study reviews electrification technologies in cement production, highlighting electrolysis as a key method for achieving ...

This study highlights the effectiveness of slag-based geopolymers in soil stabilization, outperforming Portland cement in ...

This study presents 3D-printed CCS concrete using diatomaceous earth, achieving 142 % more CO2 absorption than conventional concrete through innovative design.

Optimizing concrete with recycled shea nutshell ash using the Box-Behnken design, this study enhances performance metrics ...

A new study presents a machine learning model that accurately predicts the compressive strength of high-strength concrete, ...

Discover how circular construction is reshaping the built environment through reuse, adaptable design, and closed-loop ...

Polyglass U.S.A., Inc., a leading manufacturer of roofing and waterproofing systems, is introducing two new environmentally ...