A 2,000-year-old Roman concrete harbor structure, made from volcanic ash, lime and seawater by Romans has been cracked of its secret ingredients by modern minerologists using X-ray and Advanced Light Source (ALS).
A team of researchers working at the Berkeley Lab used X-rays to study samples of Roman concrete at microscopic level to learn about the mineral cements. The Lab’s Advanced Light Source (ALS), an X-ray research center known as a synchrotron, found that crystals of aluminous tobermorite, a layered mineral, was the key in strengthening the concrete as they grew in relict lime particles.
The finding will provide a wider adoption of concrete manufacturing techniques and also reduce industrial carbon dioxide emissions, they said. “At the ALS we map the mineral cement microstructures,” said Marie Jackson, a geology and geophysics research professor at the University of Utah who led the study.
Jackson said that lime exposed to seawater in the Roman concrete mixture reacted with volcanic ash early in the history of the massive harbor structures and the aluminous tobermorite crystallized in the lime remnants during a period of elevated temperature.
The ancient observation by the Roman scientist Pliny the Elder, who explained it saying, “as soon as it comes into contact with the waves of the sea and is submerged, becomes a single stone mass, impregnable to the waves and every day stronger.”
In fact, the Romans relied on the reaction of a volcanic rock mixture with seawater to produce the new mineral cements, including underwater volcanoes, such as the Surtsey Volcano in Iceland, that produced the same minerals found in Roman concrete.
“Contrary to the principles of modern cement-based concrete, the Romans created a rock-like concrete that thrives in open chemical exchange with seawater,” said Jackson, who is working with a geological engineer to rediscover the Romans’ complex recipe for concrete.
The concrete industry is about $50 billion industry in 2015. The new study was published in American Mineralogist.