The study introduces a sustainability-driven framework for evaluating reclaimed steel in construction, focusing on logistics ...

A study reveals that treated biochar enhances cement's CO2 capture and strength, offering a sustainable solution for reducing ...

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

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 ...

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

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

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

Researchers have developed a low-cost IoT-based smart pallet system that uses barometric sensors to accurately track material locations across multiple floors on construction sites. Study: ...

A new study shows that simple, low-cost building design choices like roof insulation, natural ventilation, and sun-oriented layouts can significantly improve climate resilience in Latin America’s ...

Cement production accounts for roughly 8 % of global CO 2 emissions, driven largely by the energy-intensive calcination of limestone. Producing one ton of cement requires about 4 GJ of energy, making ...

A new study introduces a hybrid fuzzy neural network model that significantly enhances the accuracy of predicting hardness properties in high-performance concrete by combining fuzzy logic, advanced ...