{"id":16283,"date":"2017-08-01T16:28:17","date_gmt":"2017-08-01T15:28:17","guid":{"rendered":"http:\/\/ihbconline.co.uk\/newsachive\/?p=16283"},"modified":"2017-08-01T16:28:17","modified_gmt":"2017-08-01T15:28:17","slug":"ihbc-cpd-boost-on-science-of-heritage-why-roman-concrete-stands-strong-when-modern-version-decays","status":"publish","type":"post","link":"https:\/\/newsblogs.ihbc.org.uk\/?p=16283","title":{"rendered":"IHBC CPD boost on science of heritage: Why Roman concrete stands strong when modern version decays"},"content":{"rendered":"

\"Open<\/a>Scientists apparently have cracked the secret to Roman water-based structures\u2019 strength, in findings that could help today\u2019s builders.<\/h3>\n

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Open Culture video<\/em><\/h5>\n

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OpenCulture writes:<\/p>\n

\u2026 What is going on with the concrete?<\/p>\n

Or more specifically, why do structures built only a few years ago look like they\u2019ve been weathering the elements for centuries, when buildings thousands of years old, like many parts of the Pantheon or Trajan\u2019s Markets<\/a> in Rome, look like they\u2019re only a few years old? The concrete structures of the Roman Empire, writes Nicole Davis at The Guardian<\/em>, \u2018are still standing more than 1,500 years after the last centurion snuffed it.\u2019 Roman concrete was a phenomenal feat of ancient engineering that until recently had stumped scientists who studied its durability. The Romans themselves \u2018were aware of the virtues of their concrete, with Pliny the Elder waxing lyrical in his Natural History that it is \u2018impregnable to the waves and every day stronger.\u2019<\/p>\n

The mystery of the Roman concrete recipe has finally been revealed. Researchers at the University of Utah have just published a study in American Mineralogist<\/em> showing how the compound of \u2018volcanic ash, lime (calcium oxide), seawater and lumps of volcanic rock\u2019 actually did, as Pliny claimed, become stronger over time, through the very action of those waves. \u2018Seawater that seeped through the concrete,\u2019 notes Davis, \u2018dissolved the volcanic crystals and glasses, with aluminous tobermorite and phillipsite crystalizing in their place.\u2019 These new crystals reinforce the concrete, making it more impervious to the elements. Modern concrete, \u2018by contrast\u2026 is not supposed to change after it hardens\u2014meaning any reactions with the material cause damage.\u2019 (The short video above explains the process in brief.)<\/p>\n

The recent study builds on previous work conducted by lead author, University of Utah geologist Marie Jackson. In 2014, Jackson, then at the University of California, recreated the Roman concrete recipe and discovered one of the minerals within it that makes it superior to the modern stuff. But it took a couple more years before she and her colleagues figured out the role of seawater on forming the rare crystals. Now, they are recommending that builders begin using Roman concrete in the near future for seawalls and other marine structures. The research \u2018opens up a completely new perspective for how concrete can be made,\u2019 says Jackson. \u2018What we consider corrosion processes can actually produce extremely beneficial mineral cement and lead to continued resilience, in fact, enhanced perhaps resilience over time.\u2019<\/p>\n

As we increasingly turn our postmodern gaze toward the failures of postwar industrialization\u2013toward not only crumbling cities but crumbling dams and bridges\u2013one secret for building infrastructure that can last for centuries comes to us not from an algorithm or an AI but from an ancient recipe combining the primeval forces of volcanoes and ocean waves.<\/p>\n

For more background see Gizmodo.com<\/a><\/p>\n

For the science see the study in American Mineralogist<\/a><\/p>\n

Read more in The Guardian<\/a>\u00a0and see the entry in Open Culture below:<\/p>\n

How Did the Romans Make Concrete That Lasts Longer Than Modern Concrete? The Mystery Finally Solved<\/a><\/p><\/blockquote>\n