Carbon Fiber Reinforced Polymer (CFRP) strengthening has emerged as a popular method for enhancing the performance and longevity of steel structures. This technique involves applying CFRP ...

A look at how emerging technologies for FRP concrete provide alternatives to traditionally used steel and glass fibers.

Titanium is strong, lightweight and highly resistant to corrosion. That’s why we’re suckers for watches cast in the feathery ...

In the quest for stronger, more resilient buildings and infrastructure, engineers are turning to innovative solutions, such as concrete-filled steel tube columns (CFST) strengthened with carbon ...

In the quest for stronger, more resilient buildings and infrastructure, engineers are turning to innovative solutions, such as concrete-filled steel tube columns (CFST) strengthened with carbon ...

Utilizing vegetable fibers in cement composites has huge benefits in construction, improving mechanical strength and ...

Fig.4: Epoxy Coated Steel Bars for Masonry Structures Fig.5: Zinc Coated Steel Bars for Masonry Structures The fiber-reinforced polymer bars can be employed in masonry structures as a replacement of ...

Carbon fiber-reinforced epoxy composites are key to building these long-lasting wind propulsion technologies for energy-efficient watercraft.

The major building materials used today, and likely to be used for centuries to come, all have some impact on the carbon content of a building project. This is true of concrete, bricks, steel, ...

The energy sector faces unique challenges in responding to the climate crisis. Currently, 75% of greenhouse gas emissions and ...