By Molly Michelson
Sometimes to look into the past you need to dig deep—not just physically, but visually, as well. Some of the experiments at the Advanced Light Source (ALS) in Berkeley do just that. With their powerful X-rays they can examine dinosaur blood or determine what killed Napoleon.
Scientists at the ALS recently dug into Roman concrete this way. Remarkably, Roman concrete constructed 2,000 years ago is still strong today, even under rough sea. In contrast, the concrete we manufacture only lasts around 100 years.
Additionally, most of the concrete we produce today has terrible environmental impacts. The process for creating Portland cement, a key ingredient in modern concrete, requires fossil fuels to burn calcium carbonate (limestone) and clays at about 1,450 degrees Celsius (2,642 degrees Fahrenheit). Seven percent of global carbon dioxide emissions every year comes from this activity.
To make a greener, more durable concrete, scientists from King Abdullah University of Science and Technology in Saudi Arabia, working with Berkeley researchers, used spectroscopy at the ALS to examine the Roman concrete and determine its ingredients. Ancient Romans made no secret that volcanic ash was part of the process, but the team also discovered a very rare hydrothermal mineral called aluminum tobermorite (Al-tobermorite) that formed in the concrete, and evidence also suggests the use of seawater in mixing the concrete.