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Experimental tests of a seismic retrofit components on a full-scale model of a typical steel bridge in Mid-AmericaPfeifer, Thomas A. 12 1900 (has links)
No description available.
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Seismic analysis and retrofit of mid-America bridgesChoi, Eunsoo 05 1900 (has links)
No description available.
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Earthquake precautionary measures in post-disaster housing with reference to Mexico City, MexicoLara Navarro, Manuel Efrén. January 1997 (has links)
Safety of a building's occupants is of primary concern in the design of a building. However, geophysical hazards such as earthquakes, still pose dangers to occupants of buildings. In an earthquake-resistant structure, even during a moderate shake, objects which are part of non-structural systems, accelerated by the sudden motion of the building, can hurt building occupants and cause damage to their property. The adoption of simple earthquake precautionary measures, could almost entirely eliminate this hazard. The adoption of these actions is the responsibility of occupants themselves, as part of their response to earthquake risk. / Previous personal experience with earthquakes has been identified to be a major component of response to hazard risk. This response relates to the incorporation of earthquake risk into daily life, by the adoption of earthquake precautionary measures, which could make a substantial difference in reducing loss of life and damage to property during an earthquake. Therefore, the investigation of occupants living patterns in relation to earthquake safety gives an insight on their vulnerability and level of adoption of earthquake precautionary measures, particularly in a city constantly exposed to ground shakes such as Mexico City. This research project concentrates in the study of the internal layout characteristics of the dwellings in a social housing complex built after the 1985 Mexico City earthquake.
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Dynamic response of flexible rotating machines subjected to ground motionsSu, Wen-Chyi 30 November 1994 (has links)
Rotating machine play an important role in modern technology. Compressors in
ventilating and cooling systems, pumps in power generation facilities, as well as high
speed computer are all examples of flexible rotating machinery that must remain functional
during and after a sever earthquake. Recent earthquakes have demonstrated that an
aseismically designed structure may perform well during a strong earthquake yet still
become nonfunctional due to damage in critical nonstructural components. For example,
evacuation of several hospitals during the recent Northridge earthquake in the LA area
was not caused by structural failure bur resulted from mechanical failure of the systems
described above. Rotating machines are key components of such system. Further study
into the behavior of these systems and technique for their protection for their protection
during severe ground motion is needed.
The flexible rotating machine is significantly complex, even for highly simplified
models, due to gyroscopic and other effects. This paper presents the coupled, linear partial
differential equations of motion of a flexible rotating shaft subjected to ground motion.
Classical and finite element methods are developed to solve these equations. The effects of
various physical parameters on the response of the system; magnitude, duration, and
frequency content of the ground motion; bearing stiffness and damping; flexibility of the
deformation and rotatory inertia effects are investigated, Both vertical and horizontal
ground motion, individually and in combination, will be considered. / Graduation date: 1995
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Seismic retrofitting techniques for existing unreinforced masonry structures /Chuang, Shih-Wei. Unknown Date (has links)
In the last decade, Australian civil engineers have not paid enough attention to earthquake resistant design of structures. It was commonly believed that the earthquake risk was insignificant thus earthquake resistant design was not considered for most buildings. Earthquake resistant design of structures has become an important issue in Australia following the Newcastle earthquake in 1989. / Masonry is one of the most commonly used materials throughout Australia for the construction of low rise buildings. Even though the history of past earthquakes has shown that masonry buildings suffered the maximum damage and accounted for the maximum loss of life, they continue to be popular. It was evident from the Newcastle earthquake that most unreinforced masonry structures were seriously damaged. Therefore it is important to retrofit and strengthen existing masonry structures to resist the potential earthquake damages. / For the last twenty years, several seismic retrofitting techniques for masonry structures have been developed and practiced, but rarely validated with experiments and numerical modelling. Further more, the research has been carried out mainly in America and Japan where the risk of major earthquake is high. In Australia, although unreinforced masonry is one of the most popular types of construction, research into seismic retrofitting of masonry structures is rare. / The purpose of this research is to develop a new, cheaper and high strength seismic retrofitting technique for masonry structures. An innovative retrofitting technique is presented for improving the seismic resistance of unreinforced masonry walls using cable systems. In this thesis, the experimental results from four unreinforced masonry walls and eight unreinforced masonry walls retrofitted with cable systems are presented. Seven unreinforced masonry walls retrofitted with FRP were also conducted in this research for comparison purpose. All walls were tested under combined constant gravity load and incrementally increasing in-plane lateral displacement reversals. The results showed that both the strength and ductility of tested specimens were significantly enhanced with this new technique. Seismic retrofitting of unreinforced masonry walls with cables proved to be an effective and reliable strengthening alternative. / In this thesis, a basic mechanical model has been introduced first using the simple truss model. Then, two nonlinear finite element models based on this basic mechanical model have been developed to validate the experimental results. One model is developed for unreinforced masonry walls retrofitted by cable system and the other model is developed for unreinforced masonry walls retrofitted by FRP. All of the models have been found between the analytical and experimental results are reasonably good agreement. The model takes into account the material nonlinearities as well as damage due to progressive cracking. Behaviour of the masonry is modelled using the theory of plasticity and cracking is modelled using smear cracking approach. The model is generated using ABAQUS Finite Element program. The validity of the model is established by comparison with the experimental results. It is shown that both of the numerical models are capable of predicting not only the load carrying capacity, but also the failure mode and, ductility of the retrofitted masonry walls. / This thesis reviews the literature on all seismic retrofitting techniques and compares their advantages and disadvantages to identify the most effective and economic retrofitting method for unreinforced masonry buildings. It also presents the basic concepts of seismic retrofitting and summarizes the findings from recent experimental and analytical research activities on the seismic retrofitting of unreinforced masonry buildings and provides some retrofit strategies on the most common failure modes. It is expected that this thesis will provide some guidelines to assist Australian engineers to retrofit unreinforced masonry buildings. / Thesis (PhD)--University of South Australia, 2005.
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Development of a selective weakening approach for the seismic retrofit of reinforced concrete structural walls : a thesis submitted in partial fulfilment of the requirements for the degree of Master of Engineering at the University of Canterbury /Ireland, Matthew. January 2007 (has links)
Thesis (M.E.)--University of Canterbury, 2007. / Typescript (photocopy). Includes bibliographical references. Also available via the World Wide Web.
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Experimental and analytical studies of semi-active and passive structural control of buildings : a thesis presented for the degree of Doctor of Philosophy in Mechanical Engineering at the University of Canterbury, Christchurch, New Zealand /Mulligan, Kerry. January 1900 (has links)
Thesis (Ph. D.)--University of Canterbury, 2007. / Typescript (photocopy). "26 April 2007." Includes bibliographical references (p. [183]-189). Also available via the World Wide Web.
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Seismic response of isolated bridge superstructure to incoherent ground motionsMonzon, Eric V. January 2006 (has links)
Thesis (M.S.)--University of Nevada, Reno, 2006. / "December, 2006." Includes bibliographical references. Online version available on the World Wide Web.
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An investigation of the weak links in the seismic load path of unreinforced masonary buildings /Doherty, Kevin Thomas. January 2000 (has links) (PDF)
Thesis (Ph.D.)--University of Adelaide, Dept. of Civil and Environmental Engineering, 2000? / Amendments pasted onto front end-cover. Bibliography: p. 221-240.
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Energy-based seismic design and damage assessment for structures /Khashaee, Payam. January 2005 (has links)
Thesis (Ph.D. in Mechanical Engineering)--Southern Methodist University, 2005. / Adviser: Bijan Mohraz. Includes bibliographical references.
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