In-plane Shake Table Testing of Gravity Load Designed Reinforced Concrete Frames with Unreinforced Masonry Infill Walls PDF Download
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Author: Publisher: ISBN: Category : Languages : en Pages :
Book Description
Common construction practice before modern seismic design codes appeared allowed designing columns lap splices located above the slab in each floor or above the foundation. The lack of lap splices and the shear reinforcement was in the form of stirrups with 90-degree bends and spaced at half the depth of the frame member. As a result, the section at the base of these columns is unconfined and susceptible to shear failure or to a premature failure of the lap splices before yielding of the longitudinal bars. The masonry infill walls used as partitions were often ignored by design engineers since such walls were considered as nonstructural architectural elements. However, lessons learned from past earthquakes and from several tests performed have shown that those walls tend to interact with the bounding frame when the structural system is subjected to moderate or severe earthquake ground motions. The first part of an experimental testing program carried out at the University of British Columbia (UBC) in Vancouver, Canada tested the performance of 1/2 scale Gravity Load Designed Reinforced Concrete (GLDRC) frames with unreinforced masonry walls. This testing program consisted of one monotonic loading test on an infilled frame and two series of shake table tests, one on an infilled frame and one on a bare frame with the UBC Earthquake Engineering Research Facility (EERF) unidirectional shake table. It was concluded from these tests that the interaction with the unreinforced masonry wall stiffens the frame, reduces the deformations, and allows dissipating energy through nonlinear response for several cycles of deformation. It was determined that the governing failure mode for the masonry wall was shear sliding for monotonic and dynamic loading. There was consistent evidence of local lateral deformations at the base of the gravity load designed columns due to construction cold joints and inadequate lap splices that may result in shear failure of the base of the column due.
Author: Publisher: ISBN: Category : Languages : en Pages :
Book Description
Common construction practice before modern seismic design codes appeared allowed designing columns lap splices located above the slab in each floor or above the foundation. The lack of lap splices and the shear reinforcement was in the form of stirrups with 90-degree bends and spaced at half the depth of the frame member. As a result, the section at the base of these columns is unconfined and susceptible to shear failure or to a premature failure of the lap splices before yielding of the longitudinal bars. The masonry infill walls used as partitions were often ignored by design engineers since such walls were considered as nonstructural architectural elements. However, lessons learned from past earthquakes and from several tests performed have shown that those walls tend to interact with the bounding frame when the structural system is subjected to moderate or severe earthquake ground motions. The first part of an experimental testing program carried out at the University of British Columbia (UBC) in Vancouver, Canada tested the performance of 1/2 scale Gravity Load Designed Reinforced Concrete (GLDRC) frames with unreinforced masonry walls. This testing program consisted of one monotonic loading test on an infilled frame and two series of shake table tests, one on an infilled frame and one on a bare frame with the UBC Earthquake Engineering Research Facility (EERF) unidirectional shake table. It was concluded from these tests that the interaction with the unreinforced masonry wall stiffens the frame, reduces the deformations, and allows dissipating energy through nonlinear response for several cycles of deformation. It was determined that the governing failure mode for the masonry wall was shear sliding for monotonic and dynamic loading. There was consistent evidence of local lateral deformations at the base of the gravity load designed columns due to construction cold joints and inadequate lap splices that may result in shear failure of the base of the column due.
Author: George C. Tsiatas Publisher: Frontiers Media SA ISBN: 2889636070 Category : Languages : en Pages : 266
Book Description
Nowadays, numerical computation has become one of the most vigorous tools for scientists, researchers and professional engineers, following the enormous progress made during the last decades in computing technology, in terms of both computer hardware and software development. Although this has led to tremendous achievements in computer-based structural engineering, the increasing necessity of solving complex problems in engineering requires the development of new ideas and innovative methods for providing accurate numerical solutions in affordable computing times. This collection aims at providing a forum for the presentation and discussion of state-of-the-art innovative developments, concepts, methodologies and approaches in scientific computation applied to structural engineering. It involves a wide coverage of timely issues on computational structural engineering with a broad range of both research and advanced practical applications. This Research Topic encompasses, but is not restricted to, the following scientific areas: modeling in structural engineering; finite element methods; boundary element methods; static and dynamic analysis of structures; structural stability; structural mechanics; meshless methods; smart structures and systems; fire engineering; blast engineering; structural reliability; structural health monitoring and control; optimization; and composite materials, with application to engineering structures.
Author: Kenneth John Elwood Publisher: ISBN: Category : Earthquake simulators Languages : en Pages : 896
Book Description
The objective of this investigation was to determine the mechanisms that lead to the collapse of reinforced concrete frame buildings subjected to earthquake forces. An empirical model was developed to estimate the drift at shear failure for existing reinforced concrete building columns. A shear-friction model was also developed. Shaking table tests were designed to observe the process of dynamic shear and axial load failures.
Author: Samo Gostič Publisher: ISBN: Category : Languages : en Pages : 58
Book Description
The shaking table tests of two reduced scale models of reinforced concrete buildings with masonry infills were carried out in the context of ECOEST/PREC8 as an EC support to researchers from Slovenia and their acess to large scale facilities. This activity was also supported by the British Council through ALIS Link No. 20 and by the Ministry of Science and Technology of the Republic of Slovenia. Tested models were build in the reduced scale 1:4 using the materials produced in accordance to modelling demands of true replica modelling technique. The first model represented one storey box like building and the second one two story building with plan shaped in form of letter H. Both models were tested on the shaking table at the University of Bristol in December 1995. A series of tests with different levels of excitation were carried out. The first model was tested up to collapse, while the second one was tested until severe damages occurred. It was later repaired and retested. The tests were carried out with different loading schemes: with and without attached mass on the top of the models, and with different motions of the shaking table. The table was run in single direction with the modified sine signal. The envelope of the signal was the same for all tests, only the acceleration level and frequency of sine wave waschanging. Models were tested in the frequency range near the resonance. Since propagation of structural damages leads to lowering the model's natural frequency, frequency of signal was set before each test run to be about 10% lower than model's first natural frequency. Masonry infills of tested models were constructed of relatively strong bricks laid in weak mortar. Therefore typical cracks developed and propagated along mortar beds without any cracking of bricks or crushing of infill corners. Data collected from tests are adequate to be used in future evaluation, verification and development of computational models for prediction of in-plane and out-of-plane behaviour of masonry infills.
Author: Publisher: Government Printing Office ISBN: 9780160926754 Category : Science Languages : en Pages : 206
Book Description
The Rapid Visual Screening (RVS) handbook can be used by trained personnel to identify, inventory, and screen buildings that are potentially seismically vulnerable. The RVS procedure comprises a method and several forms that help users to quickly identify, inventory, and score buildings according to their risk of collapse if hit by major earthquakes. The RVS handbook describes how to identify the structural type and key weakness characteristics, how to complete the screening forms, and how to manage a successful RVS program.
Author: Alper Ilki Publisher: Springer Science & Business Media ISBN: 9048126819 Category : Technology & Engineering Languages : en Pages : 500
Book Description
Many more people are coming to live in earthquake-prone areas, especially urban ones. Many such areas contain low-rise, low-cost housing, while little money is available to retrofit the buildings to avoid total collapse and thus potentially save lives. The lack of money, especially in developing countries, is exacerbated by difficulties with administration, implementation and public awareness. The future of modern earthquake engineering will come to be dominated by new kinds of measuring technologies, new materials developed especially for low-rise, low-cost buildings, simpler and thus lower cost options for retrofitting, cost cutting and raising public awareness. The book covers all the areas involved in this complex issue, from the prevention of total building collapse, through improvement techniques, to legal, financial, taxation and social issues. The contributors have all made valuable contributions in their own particular fields; all of them are or have been closely involved with the issues that can arise in seismic zones in any country. The recent research results published here offer invaluable pointers to practicing engineers and administrators, as well as other scientists whose work involves saving the lives and property of the many millions of people who live and work in hazardous buildings.
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Author: George C. Tsiatas
Author: Kenneth John Elwood
Author: Samo Gostič
Author: Arya, Anand S
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Author: Alper Ilki
Author: Michael G. Oliva
Author: J. Marcial Blondet
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