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Most people do not think to observe geology from the sidewalks of a major city, but all David B. Williams has to do is look at building stone in any urban center to find a range of rocks equal to any assembled by plate tectonics. In Stories in Stone, he takes you on explorations to find 3.5-billion-year-old rock that looks like swirled pink-and-black taffy, a gas station made of petrified wood, and a Florida fort that has withstood three hundred years of attacks and hurricanes, despite being made of a stone that has the consistency of a granola bar. Williams also weaves in the cultural history of stone, explaining why a white fossil-rich limestone from Indiana became the only building stone used in all fifty states; how in 1825, the construction of the Bunker Hill Monument led to America’s first commercial railroad; and why when the same kind of marble used by Michelangelo clad a Chicago skyscraper it warped so much after nineteen years that all 44,000 panels of it had to be replaced. This love letter to building stone brings to life the geology you can see in the structures of every city.
Stone buildings and monuments form the cultural centres of many of the world's urban areas. Frequently these areas are prone to high levels of atmospheric pollution that promote a variety of aggressive stone decay processes. Because of this, stone decay is now widely recognised as a severe threat to much of our cultural heritage. An interdisciplinary approach between geologists, environmental scientists, chemists, material scientists, civil engineers, restorers and architects aims to strengthen the knowledge base dealing with the causes, consequences, prevention and solution of stone decay problems.
Heritage stones are building and ornamental stones that have special significance in human culture. The papers in this volume discuss a wide variety of such materials, including stones from Europe, Asia, North and South America, Africa and Australia. Igneous (basalt, porphyry, granite), sedimentary (sandstone, limestone) and metamorphic (marble, quartzite, gneiss, soapstone, slate) stones are featured. These have been utilized over long periods of time for a wide range of uses contributing to the historic fabric of the built environment. Many of these stones are of international significance, and so are potential Global Heritage Stone Resources, that is stones that have the requisite qualities for international recognition by the Heritage Stones Subcommission of the International Union of Geological Sciences. The papers bring together diverse information on these stones ranging from their geological setting and quarry locations to mechanical properties, current availability, and uses over time. As such the papers can serve as an entry into the literature on these important stones.
During the Egyptian Old Kingdom (2650-2135 BC), the most impressive of all monuments were built in the form of the pyramids and their associated temples. The provision of enormous quantities of stone from suitable quarries was the most important requirement for their construction. This volume comprises short archaeological descriptions of the pyramids and their enclosures and determines the exact origin of the building material (above all limestone) from a total of 26 pyramids through a petrographic and geochemical comparison with samples from other quarries.
This book covers the wide spectrum of subjects relating to obtaining and using building stones, starting with their geological origin and then describing the nature of granites, volcanics, limestones, sandstones, flint, metamorphic stones, breccias and conglomerates, with emphasis being placed on how to recognise the different stones via the many illustrated examples from Great Britain and other countries. The life of a building stone is explained from its origin in the quarry, through its exposure to the elements when used for a building, to its eventual deterioration. The structure of stone buildings is then discussed, with explanations of the mechanics of pillars, lighthouses and walls, arches, bridges, buttresses and roof vaults, plus castles and cathedrals. The sequence of the historical architectural styles of stone buildings is explained—from the early days through to postmodern buildings. Special attention is paid to two famous architects: the Roman Vitruvius and the English Sir Christopher Wren who designed and supervised the construction of St. Paul’s Cathedral in London. To demonstrate many of the concepts presented, two exemplary stone buildings are described in detail: the Albert Memorial in London and Durham Cathedral in northern England. The former building is interesting because it is comprised of a cornucopia of different building stones and the latter building because of its architecture and sandstone decay mechanisms. In the final Chapter, ruined stone buildings are discussed—the many reasons for their decay and the possibility of their ‘rebirth’ via digital recording of their geometry. The book has over 350 pages and is illustrated with more than 450 diagrams and colour photographs of both the various stones and the associated stone buildings. Readers’ knowledge of the subject will be greatly enhanced by these images and the related explanatory text. A wide-ranging references and bibliography section is also included.
The readers of the first two editions of Stone: Properties, Durabi lity in Man's Environment, were mostly architects, restoration architects of buildings and monuments in natural stone, profes sionals who sought basic technical information for non-geologists. The increasing awareness of rapidly decaying monuments and their rescue from loss to future generations have urged this writer to update the 1973 and 1975 editions, now unavailable and out of print. Due to the 20-year-Iong interval, extensive updating was necessary to produce this new book. The present edition concentrates on the natural material stone, as building stone, dimension stone, architectural stone, and decorative field stones. Recently, the use of stone for thin curtain walls on buildings has become fashionable. The thin slabs exposed to anew, unknown complexity of stresses, resulting in bowing of crystalline marble, has attracted much negative pUblicity. The costs of replacing white slabs of marble on entire buildings with its legal implications have led construction com panies into bankruptcy. We blame many environmental problems on acid rain. Does acid rain really accelerate stone decay that much? Stone preservation is being attempted with an ever-increasing number of chemicals applied by as many specialists to save crumbling stone. Chemists filled this need during a time of temporary job scarcity, while the general geologist missed this opportunity; he was too deeply involved in the search for fossil fuels and metals.
Stone House Construction is a comprehensive study of Australian stone building techniques in a residential context, for people with an interest in building or renovating, including property owners, architects and builders. It has a strong theme of historic stone buildings, as traditional forms of building respond to the need for structural integrity and stability over time against weathering. The book covers aspects of building in locally sourced stone, from quarrying on-site to building arches over openings for upper storey walls, and is a source book of examples and methods to help the reader to carry on a tradition of building in local stone. Stone buildings inspire people because they transfer a natural beauty to a human achievement. The book shows many examples of Australian stonework that have not been given exposure in previous architectural references. It promotes Ecologically Sustainable Development (ESD) through the continuation of a stonework tradition in Australia.
The first comprehensive guide to the petrography of geomaterials, making the petrographers specialist knowledge available to practitioners, educators and students worldwide interested in modern and historic construction materials.