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Pushoveranalysis of RC building frameswith symmetrical setback / Ahmed Gamal Fouad Ali ; Supervised Bahaa E. H. Mahmoud , Nayer A. Elesnawy

By: Contributor(s): Material type: TextTextLanguage: English Publication details: Cairo : Ahmed Gamal Fouad Ali , 2020Description: 197 P. : charts , facimiles ; 25cmOther title:
  • التحليل الإنشائى بالدفع الجانبى لإطارات المبانى الخرسانية ذات الإرتدادات المتماثلة [Added title page title]
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  • Issued also as CD
Dissertation note: Thesis (M.Sc.) - Cairo University - Faculty of Engineering - Department of Civil Engineering Summary: Multi-storey moment-resisting frames should have sufficient capacity to resist damage under earthquake excitations. The main parameters that affect the seismic capacity are stiffness, mass, and strength. Due to modern architectural design demands, geometrical irregularities have become one of the most practical problems forstructural engineers.These irregularities can be in either plan or elevation. The most common reason for the irregularities in elevation is the presence of setbacks. A lot ofresearchhas been performed to study the seismic capacity of structures with setbacks and derive methods to improve their seismic performance.The pushover analysis is a non-linear static technique used to evaluate the seismic capacity of structures. Standard pushover analyses stated in ATC-40, EC8, and FEMA-356 are limited for buildings with regular geometry. Investigating the capacity and performance of buildings with setbacks using thestandard pushover analysis may not be possible as it does not takeinto account the contribution of higher modes.There is limited research in the literature using the pushover analysis methods for buildings with setbacks. In order to investigate and provide a solution for this practical problem, the performance of standard pushover analysis, and other advanced pushover methodologies for buildings with the setbacks, have been examined.In this thesis, the seismic capacity and performance of several reinforced concrete multi-storey moment-resisting RC frames with setbacks are investigated using four pushover analysis methods: the mass proportional uniform pushover analysis, the mass proportional triangular pushover analysis, the method of modal combinations, and the improved upper bound method. Also, the non-linear time-history analysis using seven scaled earthquakes is applied to determine the mean values and standard deviations for the seismic responses.The results of the storey drifts for serviceability,inter-story drifts for damage and the base shear for strength determined by the pushover analysis methods are compared with the mean results determined by the non-lineartime-history analysis
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Item type Current library Home library Call number Copy number Status Date due Barcode
Thesis Thesis قاعة الرسائل الجامعية - الدور الاول المكتبة المركزبة الجديدة - جامعة القاهرة Cai01.13.05.M.Sc.2020.Ah.P (Browse shelf(Opens below)) Not for loan 01010110081380000
CD - Rom CD - Rom مخـــزن الرســائل الجـــامعية - البدروم المكتبة المركزبة الجديدة - جامعة القاهرة Cai01.13.05.M.Sc.2020.Ah.P (Browse shelf(Opens below)) 81380.CD Not for loan 01020110081380000

Thesis (M.Sc.) - Cairo University - Faculty of Engineering - Department of Civil Engineering

Multi-storey moment-resisting frames should have sufficient capacity to resist damage under earthquake excitations. The main parameters that affect the seismic capacity are stiffness, mass, and strength. Due to modern architectural design demands, geometrical irregularities have become one of the most practical problems forstructural engineers.These irregularities can be in either plan or elevation. The most common reason for the irregularities in elevation is the presence of setbacks. A lot ofresearchhas been performed to study the seismic capacity of structures with setbacks and derive methods to improve their seismic performance.The pushover analysis is a non-linear static technique used to evaluate the seismic capacity of structures. Standard pushover analyses stated in ATC-40, EC8, and FEMA-356 are limited for buildings with regular geometry. Investigating the capacity and performance of buildings with setbacks using thestandard pushover analysis may not be possible as it does not takeinto account the contribution of higher modes.There is limited research in the literature using the pushover analysis methods for buildings with setbacks. In order to investigate and provide a solution for this practical problem, the performance of standard pushover analysis, and other advanced pushover methodologies for buildings with the setbacks, have been examined.In this thesis, the seismic capacity and performance of several reinforced concrete multi-storey moment-resisting RC frames with setbacks are investigated using four pushover analysis methods: the mass proportional uniform pushover analysis, the mass proportional triangular pushover analysis, the method of modal combinations, and the improved upper bound method. Also, the non-linear time-history analysis using seven scaled earthquakes is applied to determine the mean values and standard deviations for the seismic responses.The results of the storey drifts for serviceability,inter-story drifts for damage and the base shear for strength determined by the pushover analysis methods are compared with the mean results determined by the non-lineartime-history analysis

Issued also as CD

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