Recent study reveals machine learning's potential in predicting the strength of carbonated recycled concrete, paving the way ...

Researchers developed a high-resolution 3D ultrasonic imaging system for concrete, adapting to various structures for ...

The YOLOv8 and Swin Transformer dual-module system significantly improves structural crack detection, offering a faster and more accurate inspection method.

Findings show enforced carbonation in concrete enhances performance but increases corrosion risk, highlighting the need for ...

Operando 5D imaging uncovers carbonation-driven processes in cement paste, paving the way for stronger, sustainable concrete ...

This study presents a high-performance concrete blend with palm ash and jute fiber, achieving a 20% reduction in carbon ...

New research shows steel I- and T-sections inside concrete beams can offset shear loss from web openings—enhancing safety in ...

This review analyzes low-carbon ultra-high-performance concrete (UHPC) mixes, highlighting their potential to reduce emissions while meeting structural demands.

Learn how seismic-resilient bridge design uses advanced materials, curved geometry modeling, shape memory alloys, and performance-based methods to reduce earthquake damage and downtime.

The study shows that DAANAC exhibits strong thermal and photochemical stability yet remains highly responsive to mechanical ...

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 found that shredded composites from recycled wind turbine blades can significantly improve the mechanical performance of cement-based mortars—highlighting a promising use for a ...