C. J. Brandon, R. L. Hohlfelder, M. D. Jackson, J. P. Oleson ... 368 pages - Publisher: Oxbow Books; (August, 2014) ... Language: English - ISBN-10: 1782974202 - ISBN-13: 978-1782974208
One marker of the majesty of ancient Rome is its surviving architectural
legacy, the stunning remains of which are scattered throughout the
circum-Mediterranean landscape. Surprisingly, one truly remarkable
aspect of this heritage remains relatively unknown. There exists beneath
the waters of the Mediterranean the physical remnants of a vast
maritime infrastructure that sustained and connected the western world's
first global empire and economy. The key to this incredible
accomplishment and to the survival of structures in the hostile
environment of the sea for two thousand years was maritime concrete, a
building material invented and then employed by Roman builders on a
grand scale to construct harbor installations anywhere they were needed,
rather than only in locations with advantageous geography or
topography. This book explains how the Romans built so successfully in
the sea with their new invention. The story is a stimulating mix of
archaeological, geological, historical and chemical research, with
relevance to both ancient and modern technology. It also breaks new
ground in bridging the gap between science and the humanities by
integrating analytical materials science, history, and archaeology,
along with underwater exploration. The book will be of interest to
anyone interested in Roman architecture and engineering, and it will
hold special interest for geologists and mineralogists studying the
material characteristics of pyroclastic volcanic rocks and their
alteration in seawater brines. The demonstrable durability and longevity
of Roman maritime concrete structures may be of special interest to
engineers working on cementing materials appropriate for the long-term
storage of hazardous substances such as radioactive waste. A pioneering
methodology was used to bore into maritime structures both on land and
in the sea to collect concrete cores for testing in the research
laboratories of the CTG Italcementi Group, a leading cement producer in
Italy, the University of Berkeley, and elsewhere. The resulting
mechanical, chemical and physical analysis of 36 concrete samples taken
from 11 sites in Italy and the eastern Mediterranean have helped fill
many gaps in our knowledge of how the Romans built in the sea. To gain
even more knowledge of the ancient maritime technology, the directors of
the Roman Maritime Concrete Study (ROMACONS) engaged in an ambitious
and unique experimental archaeological project - the construction
underwater of a reproduction of a Roman concrete pier or pila. The same
raw materials and tools available to the ancient builders were employed
to produce a reproduction concrete structure that appears to be
remarkably similar to the ancient one studied during ROMACON's fieldwork
between 2002-2009. This volume reveals a remarkable and unique
archaeological project that highlights the synergy that now exists
between the humanities and science in our continuing efforts to
understand the past. It will quickly become a standard research tool for
all interested in Roman building both in the sea and on land, and in
the history and chemistry of marine concrete. The authors also hope that
the data and observations it presents will stimulate further research
by scholars and students into related topics, since we have so much more
to learn in the years ahead.