CLEVELAND, Ohio — A new bone strength testing technology developed at Ohio University shows promise in identifying women at risk for fractures more accurately than the current standard screening ...

Integrating superabsorbent polymers with calcium-carbonate-producing bacteria in concrete significantly reduces shrinkage and enhances structural performance.

Incorporating marble dust and polypropylene fibers in concrete boosts strength and durability, highlighting the role of ...

High-performance concrete with recycled aggregates maintains structural strength, promoting resource-efficient construction and reducing environmental impact.

Ohio University’s radiation-free wrist test spotted fracture risk DXA missed — a potential shift in osteoporosis screening.

The Global Trajectory of Construction Chemical Technology The international construction industry is currently characterized by a transition from traditional job-site mixing to advanced dry-mixed ...

To wood or not to wood, that's been the question! Ever since oil-based plastics burst onto the manufacturing scene, cost, ...

When developing novel materials for use in harsh environments, validation and simulation testing must be carried out in ...