Recycled steel fibers from tires offer a sustainable solution for concrete reinforcement, enhancing tensile strength while ...

Autonomous equipment is changing how construction gets done—making it quicker, safer, and less reliant on manual labor.

Research shows that integrating pumice and waste tire rubber in geopolymer concrete enhances mechanical properties, offering ...

Frictional base isolation systems improve earthquake resistance in timber buildings, reducing costs and complexity while ...

Simple building design strategies, such as roof insulation and sun-oriented layouts, can significantly boost climate ...

The development of carbon-cement concrete enhances energy storage, positioning it as a key material for sustainable ...

Innovative self-healing concrete with Bacillus subtilis offers a sustainable solution to cracking, enhancing durability and ...

This IoT-driven smart pallet system utilizes digital altimeters for accurate material location tracking on multi-story ...

The principle of concrete maturity offers a non-destructive approach to estimate strength, crucial for timely decisions in ...

Thermoplasmonic nanorings enable passive solar-responsive windows, reducing reliance on mechanical cooling and enhancing ...

A hybrid fuzzy neural network model enhances prediction accuracy of hardness properties in high-performance concrete, ...

This study presents a concrete mix using agro-industrial waste, achieving 38.8% lower emissions and improved strength, paving the way for sustainable building.