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

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

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

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

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

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

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

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

Scientists have used AI and advanced modeling to design greener cement mixes, cutting carbon emissions without sacrificing strength and offering a faster, more efficient route to sustainable ...

In the construction sector, robotics has been recognized as an exciting innovation with the ability to increase efficiency and occupational safety. A swiftly expanding body of research on robotics in ...

A new study challenges the long-standing belief that chloride concentration alone triggers steel corrosion in concrete, revealing that flaws at the steel–concrete interface and declining alkalinity ...

Researchers have developed a chitosan-enhanced clay brick that significantly improves thermal insulation while maintaining structural strength, offering a sustainable solution for energy-efficient ...