This study highlights how rubber powder and nano-silica improve concrete's freeze-thaw resistance, enhancing durability and sustainability in construction.

Integrating superabsorbent polymers with calcium-carbonate-producing bacteria in concrete significantly reduces shrinkage and enhances structural performance.

Lead doors are also fixed in place. If the room layout changes in the future, the door cannot move with it. Mobile radiation barriers are large rolling shields that can be moved to wherever protection ...

Incorporating marble dust and polypropylene fibers in concrete boosts strength and durability, highlighting the role of ...

Conductive high-strength concrete shows promise for data centers and smart buildings, combining mechanical strength with effective electromagnetic shielding.

High-performance concrete with recycled aggregates maintains structural strength, promoting resource-efficient construction and reducing environmental impact.

A look at how local resource use, material innovation, and autonomous construction are enabling practical habitat development ...

Research shows metallurgical coal can reduce concrete density by 25 % while maintaining structural performance, promoting ...

Research reveals variability in mold susceptibility of bio-based insulation, highlighting the need for rigorous testing and ...

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.

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