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This volume traces the process by which reinforced concrete emerged during the 19th century as the successful building material of today. Early work on testing the strength of cements led into a period of experimental work by a number of engineers, notably in Britain, France and America, to devise successful systems of embedding iron in concrete in such a way that the two materials would act together to carry imposed loads. The papers take the story to the early years of the 20th century and provide a thorough review of the gradual evolution of ideas and the contributions of individuals to this technology.
This volume traces the process by which reinforced concrete emerged during the 19th century as the successful building material of today. Early work on testing the strength of cements led into a period of experimental work by a number of engineers, notably in Britain, France and America, to devise successful systems of embedding iron in concrete in such a way that the two materials would act together to carry imposed loads. The papers take the story to the early years of the 20th century and provide a thorough review of the gradual evolution of ideas and the contributions of individuals to this technology.
From the Foreword by Kenneth Frampton: "Concrete remains a valuable historical text that in many respects has never been given its due. It is an unmatched pioneering history of the development of reinforced concrete up to 1914. It records and analyses the densely articulated, if provincial, English debate with respect to the aesthetic challenge posed by the increasing popularity of concrete from around 1870 onwards. Finally, until very recently it was the only readily available monograph on Auguste Perret in English. In this regard it is particularly valuable as a thorough and perceptive assessment of Perret's life and career, one that still stands as a point of departure for all current attempts to situate this seminal architect within the wider trajectory of twentieth-century culture."
In this study, Marcello Mogetta examines the origins and early dissemination of concrete technology in Roman Republican architecture. Framing the genesis of innovative building processes and techniques within the context of Rome's early expansion, he traces technological change in monumental construction in long-established urban centers and new Roman colonial cites founded in the 2nd century BCE in central Italy. Mogetta weaves together excavation data from both public monuments and private domestic architecture that have been previously studied in isolation. Highlighting the organization of the building industry, he also explores the political motivations and cultural aspirations of patrons of monumental architecture, reconstructing how they negotiated economic and logistical constraints by drawing from both local traditions and long-distance networks. By incorporating the available evidence into the development of concrete technology, Mogetta also demonstrates the contributions of anonymous builders and contractors, shining a light on their ability to exploit locally available resources.
Concrete: We use it for our buildings, bridges, dams, and roads. We walk on it, drive on it, and many of us live and work within its walls. But very few of us know what it is. We take for granted this ubiquitous substance, which both literally and figuratively comprises much of modern civilization's constructed environment; yet the story of its creation and development features a cast of fascinating characters and remarkable historical episodes. Featuring a new epilogue on the Surfside condominium collapse and the current state of infrastructure in America, this book delves into this history, opening readers' eyes at every turn. In a lively narrative peppered with intriguing details, author Robert Courland describes how some of the most famous personalities of history became involved in the development and use of concrete-including King Herod the Great of Judea, the Roman emperor Hadrian, Thomas Edison (who once owned the largest concrete cement plant in the world), and architect Frank Lloyd Wright. Courland points to recent archaeological evidence suggesting that the discovery of concrete directly led to the Neolithic Revolution and the rise of the earliest civilizations. Much later, the Romans reached extraordinarily high standards for concrete production, showcasing their achievement in iconic buildings like the Coliseum and the Pantheon. Amazingly, with the fall of the Roman Empire, the secrets of concrete manufacturing were lost for over a millennium. The author explains that when concrete was rediscovered in the late eighteenth century it was initially viewed as an interesting novelty or, at best, a specialized building material suitable only for a narrow range of applications. It was only toward the end of the nineteenth century that the use of concrete exploded. During this rapid expansion, industry lobbyists tried to disguise the fact that modern concrete had certain defects and critical shortcomings. It is now recognized that modern concrete, unlike its Roman predecessor, gradually disintegrates with age. Compounding this problem is another distressing fact: the manufacture of concrete cement is a major contributor to global warming. Concrete Planet is filled with incredible stories, fascinating characters, surprising facts, and an array of intriguing insights into the building material that forms the basis of the infrastructure on which we depend.
The creation of reinforced concrete, a composite, is based on the inventions of Portland cement and the rolled steel bar. This dual concept was in force in the 1880s, rapidly enforcing the composite on the market, gradually phasing out the materials of natural stone and wood in construction works. Simultaneously, simple computation models were developed, allowing calculations of the building material for constructions, useful as flooring, beams, columns, bridges, road pavements, cisterns, trusses, tubes etc. Though simple, the first design theory in 1887 became very useful as it reduced the dimensions of structures by about 50 %. In 1890, P. Neumann, a pioneer from the Vienna school, contributed to a more scientific model of properties, though slowly utilized in practice, which inspired the design theories launched by three outstanding pioneers, E. Mörsch, R. Saliger and E. Suenson after the turn of the twentieth century. Meanwhile J. Melan and F. Emperger in Vienna and A. Ostenfeld in Copenhagen started the era of bridge designing from Monier vaults. Emperger, occupied in the USA with bridge designing 1890- 1897, contributed to the very rapid development of bridge-building in the USA. Much in the same manner, F. Hennebique and his peer E. Fryssinet were in charge of the amazing development of monolithic reinforced structures and pre-stressed bridges in Europe 1892-1940. The ultimate calculation method for reinforced concrete became a reality when a pioneer from the Danish school, A. Ingerslev launched theories for flat slabs. Despite a very short active period, Ingerslev's theory was employed in Denmark after 1921. His follower K. W. Johansen, occupied with the subject for three decades, brought the flat slab theory to its peak. Slowly, due to very late translations, it gained acceptance in all countries dealing with flat slab structures. The ultimate use of the composite appeared in thin shell structures: Orly hangars erected in 1921-1923, the spherical dome in Jena in 1924 and elliptical shaped shell structures in Spain and Switzerland in the 1930s, due to E. Torroja and R.Maillart. Finally, after the failure of the hotel Goldener Bär in Bern in 1901, the building code for concrete was rapidly enforced, in 1903 in Switzerland, soon followed by codes in Austria and Germany. The higher safety of concrete structures, due to the increased strength of the materials, was soon followed by more sophisticated design theories, based on prismatic failure stresses.
Concrete has been used in arches, vaults, and domes dating as far back as the Roman Empire. Today, it is everywhere—in our roads, bridges, sidewalks, walls, and architecture. For each person on the planet, nearly three tons of concrete are produced every year. Used almost universally in modern construction, concrete has become a polarizing material that provokes intense loathing in some and fervent passion in others. Focusing on concrete’s effects on culture rather than its technical properties, Concrete and Culture examines the ways concrete has changed our understanding of nature, of time, and even of material. Adrian Forty concentrates not only on architects’ responses to concrete, but also takes into account the role concrete has played in politics, literature, cinema, labor-relations, and arguments about sustainability. Covering Europe, North and South America, and the Far East, Forty examines the degree that concrete has been responsible for modernist uniformity and the debates engendered by it. The first book to reflect on the global consequences of concrete, Concrete and Culture offers a new way to look at our environment over the past century.
Post-war Europe and Asia have seen the rapid development of German and Japan from a war torn countries into two of the most powerful nations in the world. Their achievement is nothing short of miraculous. However, as the two most populated countries; China and India, transform themselves into Asia powerhouses, cement and concrete will be their brick and mortar to sustain their double digit growth in economy.This book summarizes the history and development of cement and concrete. From prehistoric period to today, from ancient Egypt and Rome period to China, over tens of thousands of years of human civilization in the form of the gelled material (cement, concrete).The book is divided into seven chapters, including more than 300 references. Chapter 1 introduces the prehistoric gelled material development; Chapter 2 is about the birth of Portland cement and the technological application; Chapter 3 introduces the important role that concrete played in the human society developing process; Chapter 4 subdivides the performance and the wide application of different function of cement and concrete; Chapter 5 focuses on northern Europe, especially the history of Norwegian cement; Chapter 6 elaborates the development of concrete in China and its impact in the world's ancient civilizations history; Chapter 7 describes the development prospect of cement and concrete.
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