Researchers at ETH Zurich and Empa have found a way to press sawdust with a mineral binder to create a robust, ...

This study reveals how Fe(II) ions boost foam stability in concrete, utilizing hydrolyzed pumpkin seed protein for stronger, water-resistant building materials.

CO2 curing significantly boosts the passivation film's stability in cement-based materials, enhancing corrosion resistance ...

Robotic prefabrication and 3D printing are set to transform construction, enabling resilient structures in extreme ...

Research shows that combining silica fume, fly ash, and manufactured sand in concrete significantly boosts strength and enhances predictive modeling accuracy.

Achieve optimal heating with Cubic's intelligent combustion control for condensing boilers, featuring advanced sensors for ...

Durable paving blocks created from recycled shells and mining by-products present a lower-carbon solution for construction, supporting circular economy goals.

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

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

From blast wave physics to UHPC concrete and polyurea coatings, this article explores how layered design strategies help ...

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 ...