The study summarizes key technologies in construction robotics for extreme environments, focusing on efficiency, safety, and autonomous operation challenges.

This study presents a self-sensing composite bar that integrates damage assessment and monitoring, improving safety and ...

Investigating the recycling of infra-lightweight concrete, this study shows how RLCAs can produce RILC, aligning with ...

Vacuum glazing technology significantly improves thermal insulation and energy efficiency in buildings, balancing ...

This study reveals how silica aerogel and recycled PET improve cement-based mortars, reducing thermal conductivity by 55% and ...

Research shows goat hair as a natural fiber reinforcement improves mechanical properties of lightweight cement composites, ...

Smart buildings use advanced technologies to enhance energy efficiency, occupant comfort, and sustainability through ...

The innovative freeze-drying of biocement bacteria offers a shelf-stable solution for efficient cement production and repair ...

This study presents CSRGF, a carbon-neutral grout that enhances soil stabilization and liquefaction resistance, crucial for ...

Combining an enhanced A* algorithm with BIM, this research improves construction robot path planning, addressing navigation challenges in complex spaces.

Construction projects typically involve three key phases: site preparation (leveling and earthmoving), substructure work (foundations and anchoring), and superstructure construction (facades and ...