Researchers enhance concrete durability by integrating nano-silica and sisal fibers, improving strength and crack resistance ...

Innovative use of 2.5 mm steel wires in RC deep beams leads to over 60 % increase in shear strength, providing a viable method for infrastructure enhancement.

Researchers have developed a 3D-printable concrete that reduces cement use by 40% using cellulose nanofibers and limestone ...

A novel modeling approach for self-healing concrete enhances predictive reliability, addressing early-stage variability and ...

Investigating alkali-treated wood, this research uncovers how chemical modifications and anisotropic structure influence transparency and light transmission.

Concrete builds the modern world, but carries a heavy carbon cost. Discover the engineering advantages, material innovations, and decarbonization efforts defining its future.

Transforming copper mine waste into a construction binder through alkali activation presents a sustainable solution for lower ...

Research shows treating recycled concrete with magnetized water and nano-silica boosts compressive strength by 14% and enhances durability against acid rain.

Research shows ECC shells can transform RC beam-column joints, enhancing load capacity and energy dissipation, crucial for earthquake-resistant design.

Laboratory findings show biochar's role in enhancing thermal resistance and moisture stability in living wall systems, promoting sustainable urban design.

BEClimate today announced the launch of BEXchange, a carbon marketplace purpose-built for the built environment, developed in ...

Understand how construction loans work, from staged funding and risk controls to qualification requirements and permanent financing transitions.