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Title: Why 2,000 Year-Old Roman Concrete Is So Much Better Than What We Produce Today
Source: [None]
URL Source: [None]
Published: Jul 5, 2017
Author: SIGNE DEAN
Post Date: 2017-07-05 07:14:16 by Tatarewicz
Keywords: None
Views: 134
Comments: 1

Sci-Alert...

One of the fascinating mysteries of Ancient Rome is the impressive longevity of some of their concrete harbour structures. Battered by sea waves for 2,000 years, these things are still around while our modern concoctions erode over mere decades.

Now scientists have uncovered the incredible chemistry behind this phenomenon, getting closer to unlocking its long-lost recipe. As it turns out, not only is Roman concrete more durable than what we can make today, but it actually gets stronger over time.

Researchers led by geologist Marie Jackson from the University of Utah have been chipping away at the mysteries of Roman concrete for years, and now they have mapped its crystalline structure, figuring out precisely how this ancient material solidifies over time.

Modern concrete is typically made with portland cement, a mixture of silica sand, limestone, clay, chalk and other ingredients melted together at blistering temperatures. In concrete, this paste binds 'aggregate' - chunks of rock and sand.

This aggregate has to be inert, because any unwanted chemical reaction can cause cracks in the concrete, leading to erosion and crumbling of the structures. This is why concrete doesn't have the longevity of natural rocks.

But that's not how Roman concrete works.

Theirs was created with volcanic ash, lime and seawater, taking advantage of a chemical reaction Romans may have observed in naturally cemented volcanic ash deposits called tuff rocks.

Mixed in with the volcanic ash mortar was more volcanic rock as aggregate, which would then continue to react with the material, ultimately making Roman cement far more durable than you'd think it should be.

In a previous research project led by Jackson, the team had already gathered samples of Roman marine concrete from several ports along the Italian coast.

Drilling for Roman concrete samplesDrilling for Roman concrete samples in Tuscany, 2003. Photo: J. P. Oleson

Now the researchers mapped the samples using an electron microscope, before drilling down to an extremely high resolution with X-ray microdiffraction and Raman spectroscopy. With these advanced techniques they could identify all the mineral grains produced in the ancient concrete over centuries.

"We can go into the tiny natural laboratories in the concrete, map the minerals that are present, the succession of the crystals that occur, and their crystallographic properties," says Jackson.

"It's been astounding what we've been able to find."

Jackson was particularly interested in the presence of aluminous tobermorite, a hardy silica-based mineral that's actually pretty rare and difficult to make in the lab, yet is abundant in the ancient concrete.

As it turns out, aluminous tobermorite and a related mineral called phillipsite actually grows in the concrete thanks to the sea water sloshing around it, slowly dissolving the volcanic ash within and giving it space to develop a reinforced structure from these interlocking crystals.

"The Romans created a rock-like concrete that thrives in open chemical exchange with seawater," says Jackson.

That's pretty crazy, and is exactly the opposite of what happens in modern concrete, which erodes as saltwater rusts the steel reinforcements and washes away the compounds that hold the material together.

Making concrete the way Romans once did would be a boon to the modern building industry, especially when it comes to coastal structures, like piers that are constantly battered by the waves, or fanciful tidal lagoons to harness energy from waves.

But unfortunately the recipes have been lost to the tooth of time, so our only shot at recreating the ancient material is to reverse-engineer it based on what we know about its chemical properties.

And it's not like we can replace all the world's cement with the historical stuff, because not everywhere can we access the right volcanic ingredients.

"Romans were fortunate in the type of rock they had to work with," says Jackson. "We don't have those rocks in a lot of the world, so there would have to be substitutions made."

But if Jackson and her colleagues can crack the recipe, modern marine engineers could tap into the potential of a material that doesn't need steel reinforcements, can last for centuries, and makes fewer carbon emissions to boot.

The study was published in American Mineralogist.

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#1. To: Tatarewicz (#0)

Why 2,000 Year-Old Roman Concrete

It couldn't be harder than WPA concrete we were breaking on Howard Street in Illinois. ;)

BTP Holdings  posted on  2017-07-05   7:22:56 ET  Reply   Untrace   Trace   Private Reply  

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