Construction of El Capitolio (the Capitol Building of Puerto Rico) began in 1925 in the neighborhood now known as “Old San ...

Researchers have demonstrated that air-cooled blast furnace slag (ACBFS) can effectively replace natural limestone aggregates ...

Cleantech innovator NxLite™ today announced the commercial launch of NxLite L80, the industry's first low-emissivity (low-E) ...

Insights into moisture's role in mass timber's microbial communities and VOC emissions highlight its implications for indoor ...

Investigating small modular retail stores, this research reveals their benefits in sustainability, cost reduction, and ...

This study demonstrates that using coconut fiber, wheat straw ash, and silica fume in recycled aggregate concrete improves mechanical properties and durability.

Inorganic pigments from LANXESS are opening up new design possibilities in 3D concrete printing. A current example is the ...

Nano-engineered cement composites with TiO2 and calcium carbonate show improved mechanical properties and self-cleaning ...

An ambitious housing project led by the University of South Australia, the SA Government and industry partners is making homes in the Anangu Pitjantjatjara Yankunytjatjara (APY) Lands more comfortable ...

This study reveals how Parthenium biomass in brick manufacturing improves porosity and reduces emissions, offering an eco-friendly alternative for construction.

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

Engineers from Montana State University have developed a new building material made from fungus mycelium and bacterial cells. Their research shows that this low-temperature, living-cell-based material ...