Integrating MCDA, CE, LCA, and ANN, this research evaluates bio-based retrofitting approaches, promoting sustainability in ...

This study presents a hybrid binder that lowers embodied carbon by 45% and boosts concrete strength and durability using ...

GBP K.K. has launched a new Mechanical Inline Connector for the Japanese market, designed to enable direct inline connection ...

As industrial automation continues to accelerate, manufacturers face a unique challenge—how do you safely integrate robotics ...

Effective error recovery mechanisms are essential for robotic construction, allowing for real-time problem-solving in dynamic ...

Assessing industrial waste in concrete, this review highlights performance factors, recycling challenges, and the potential ...

Lunar regolith could be a viable option for radiation shielding, reducing exposure risks for astronauts during long-duration missions on the Moon's surface.

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 ...

Researchers have developed a machine learning-based approach to accurately predict the compressive strength of concrete made with industrial waste, offering a faster and more efficient alternative to ...

Biocement-producing bacteria have the potential to enhance cement manufacturing and repair, but growing these microbes on-site remains a challenge. Now, researchers reporting in ACS Applied Materials ...

A carefully optimized dose of basalt fibers could make steel slag-based foamed concrete stronger and far more resistant to freeze–thaw damage, according to new research. Study: Experimental and ...

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