Previously, a yield strength of 5,000 pounds per square inch (psi) was enough for concrete to be rated as “high strength,” with the best going up to 10,000 psi. The new UHPC can withstand 40,000 psi or more.
The greater strength is achieved by turning concrete into a composite material with the addition of steel or other fibers. These fibers hold the concrete together and prevent cracks from spreading throughout it, negating the brittleness. “Instead of getting a few large cracks in a concrete panel, you get lots of smaller cracks,” says Barnett. “The fibers give it more fracture energy.”
They mean mixing in steel dust or nylon hair?
Hard to believe this is a recent enough thought.
It’s been done in mining for decades
I asked because I’ve heard such advice for bloody countryside home floors. Not even something requiring it.
Turns out that anti-cracking tech is widely applicable, if a bit expensive.
I doubt it’s a recent thought, knowing civil engineers, they’re absolute perverts when it comes to concrete.
IIRC this type of thing isn’t new - there was research into the possibility of making ships out of ice mixed with sawdust in WWII.
It also wasn’t and isn’t that crazy of an idea.
It’s strong AF, buoyant, and you can repair it at sea using the ocean around you.
You just need a reliable way to keep it cool.
How is the fleet holding up?
We almost made it this time!
Oh well, let’s freeze another fleet, wait for January and try again
Look up pykrete, it’s actually a really cool material