Seashell-modified concrete offers a low-carbon alternative, reducing emissions and maintaining performance, ideal for coastal ...

Investigating modified biochar reveals its role in CO2 adsorption and strength enhancement in cement composites, crucial for ...

Zinc peroxide nanoparticles enhance foamed concrete, improving compressive strength and reducing porosity, paving the way for ...

This innovative IoT-ANN framework allows for non-destructive concrete strength assessment, improving accuracy and ...

Bacteria may play a key role in Martian habitat construction, turning soil into cement-like materials while supporting life ...

Sisal fiber reinforcement in concrete offers significant mechanical and durability benefits, supporting the development of ...

Research shows near-surface-mounted reinforcement restores shear capacity in concrete beams with vertical openings, improving ...

How real-time data, predictive analytics, and digital EPDs are making carbon accounting smarter and more scalable across the ...

Incorporating Bayer red mud in concrete offers a sustainable solution, improving mechanical strength while addressing ...

As buildings face tougher climate demands, green certifications are shifting from checklists to real performance. Here's how standards are changing—and why.

RMIT's study reveals coffee biochar's potential in lower-carbon concrete, achieving significant reductions in carbon ...

Biocement-producing bacteria have the potential to enhance cement manufacturing and repair, but growing these microbes on-site remains a challenge. Now, researchers reporting in ACS Applied Materials ...