University of Tennessee researchers are developing a method to convert discarded wood into a high-strength material, ...

The coral-inspired method for CO2 capture yields high-performance materials, surpassing traditional options in strength and ...

Self-densified wood, created through innovative microstructural regulation, exhibits exceptional strength and toughness, outperforming conventional wood types.

A novel method for producing sand-like minerals from seawater using electricity and CO2 shows promise for sustainable ...

Learn how to manage construction waste effectively with tips on compliance, sustainability, recycling, and tech tools.

A team of scientists led by Nanyang Technological University, Singapore (NTU Singapore) have developed ‘fungi tiles’ that could one day help to bring the heat down in buildings without consuming ...

Normet, a global leader in concrete spraying solutions for underground mining and tunnelling, proudly announces the launch of ...

The article details a novel approach for BIM reconstruction of MEP systems, leveraging semantic segmentation to achieve 92.18 ...

Nanocellulose fibers in OPC mortar improve hydration and reduce shrinkage, offering a sustainable solution for enhancing ...

This study evaluates thermoactivated recycled cement waste as a sustainable alternative to Portland cement, focusing on ...

The new joint design for timber-concrete composite frames significantly improves load transfer and stiffness, addressing key ...

Research highlights the use of machine learning to assess compressive strength in concrete reinforced with steel fibers, ...