Architectural concrete as we know it today was invented in the 19th century. It reached new heights in the U.S. after World War II when mid-century modernism was in vogue, following in the footsteps ...

Self-healing concrete materials like BioFiber provide a path toward a more sustainable building model, which aligns with ...

Although modern-day skyscraper and bridge constructions could begin deteriorating within 50 years, the Pantheon and coastal ...

In hopes of producing concrete structures that can repair their cracks, researchers from Drexel University’s College of Engineering are putting a new twist on an old trick for improving the durability ...

Kamal Khayat, seen here with a 3D printer in Missouri S&T University’s Advanced Materials Characterization Laboratory, leads a team that won a $1.4-million grant from the U.S. Army Corps of Engineers ...

Large concrete structures need to be regularly tested for defects that may compromise their stability. While acoustic tests performed by certified inspectors are usually the inspection method of ...

Researchers from Drexel University’s College of Engineering are looking to nature for solutions to one of the Department of Defense’s (DoD) ongoing challenges: fortifying aging concrete structures.

Neglect a modern concrete structure for a few decades and it’ll start to fall apart – and yet, structures built by the ancient Romans are still standing strong after 2,000 years. Now, engineers have ...

Neglected concrete quality quietly undermines long-term structural performance and value, says the author. Hidden costs of ...