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Earthquake resistant design. --- Buildings --- Retrofitting.
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On 17th January 1995 an inland earthquake of 7.2 magnitude occurred under Kobe city in central Japan. More than 5,500 people lost their lives. There was immense and serious damage to buildings. Researchers and engineers were shocked and astonished by the extent of the devastation and loss of life. Ground motions, generated by the event were far greater than the seismic standard for earthquake-proof designs in Japan. Recent academic progress in the fields of geology and geophysics, which would help to reduce the severity of seismic disasters, has not been sufficiently applied to the developme
Earthquake resistant design. --- Faults (Geology) --- Earthquake engineering.
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This book reports on a comprehensive experimental characterization of the material, mechanical and dynamic properties of masonry infill walls. It analyses the critical parameters affecting their out-of-plane seismic behavior, including the effects of the panel support conditions, gravity load, and previous damage. Further, it offers an extensive review of infill masonry strengthening strategies and reports on the experimental assessment of various textile-reinforced mortar (TRM) strengthening solutions. It also presents the development, implementation and calibration of a numerical model to simulate the infill panels’ seismic behavior, with the corresponding findings of various tests to assess the seismic vulnerability of an infilled RC structure. All in all, this outstanding PhD thesis offers a comprehensive review of masonry infill walls, and a timely overview of numerical and experimental methods for testing and preventing the out-of-plane seismic collapse of RC buildings.
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This book first provides a comprehensive guideline for future disaster-resistant city planning in large cities in disaster-prone countries such as Japan. It is a compilation of knowledge and know-how obtained through the author's work in the national government for one and half years in the Earthquake Reconstruction Headquarters, right after the Great Hanshin-Awaji Earthquake on 17 January 1995. The author has carefully examined the various ad hoc measures taken just after the earthquake, which were criticized because they did not work as well as expected. Additionally, he has examined the later revisions in disaster and risk management systems made at the levels of local and national governments through experience in the Hanshin-Awaji Earthquake, to which the author had long been committed. The author argues that the rescue activities, rehabilitation, and reconstruction plans for disaster countermeasures implemented once a disaster has occurred and the city planning established in ordinary times should be extremely tightly connected with each other. City planning that subsumes rescue activities, rehabilitation, and reconstruction plans against what ought to have happened would critically improve the capability of crisis management and, consequently, protect life and property once a disaster has occurred. Such city planning eventually creates disaster-resistant cities. This book assumes readers to be graduate students who study city planning. It is also beneficial for practitioners and policy makers who are in charge of the construction of disaster-resistant cities at the national and local levels of governments, especially in disaster-prone countries. .
Public finance --- Public economics --- Economics --- Environmental protection. Environmental technology --- Civil engineering. Building industry --- economie --- sociale interventies --- milieuzorg --- milieutechnologie --- ingenieurswetenschappen --- Earthquake resistant design --- Kobe Earthquake, Japan, 1995.
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