AN INNOVATIVE SHEAR WALLS COUPLING FOR ENHANCEMENT OF PERFORMANCE OF RC STRUCTURES
Arafa, D., Salem, H., Issa, M. (2016). AN INNOVATIVE SHEAR WALLS COUPLING FOR ENHANCEMENT OF PERFORMANCE OF RC STRUCTURES. EKB Journal Management System, 11(38), 19-31. doi: 10.21608/auej.2016.19495
Dalia F Arafa; Hamed M Salem; Mohamed E Issa. "AN INNOVATIVE SHEAR WALLS COUPLING FOR ENHANCEMENT OF PERFORMANCE OF RC STRUCTURES". EKB Journal Management System, 11, 38, 2016, 19-31. doi: 10.21608/auej.2016.19495
Arafa, D., Salem, H., Issa, M. (2016). 'AN INNOVATIVE SHEAR WALLS COUPLING FOR ENHANCEMENT OF PERFORMANCE OF RC STRUCTURES', EKB Journal Management System, 11(38), pp. 19-31. doi: 10.21608/auej.2016.19495
Arafa, D., Salem, H., Issa, M. AN INNOVATIVE SHEAR WALLS COUPLING FOR ENHANCEMENT OF PERFORMANCE OF RC STRUCTURES. EKB Journal Management System, 2016; 11(38): 19-31. doi: 10.21608/auej.2016.19495

AN INNOVATIVE SHEAR WALLS COUPLING FOR ENHANCEMENT OF PERFORMANCE OF RC STRUCTURES

Journal of Al-Azhar University Engineering Sector
Article 20, Volume 11, Issue 38, January 2016, Page 19-31  XML PDF (1.44 MB)
Document Type: Original Article
DOI: 10.21608/auej.2016.19495
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Authors
Dalia F Arafa1; Hamed M Salem2; Mohamed E Issa2
1Concrete Structures Research Institute, Housing and Building Research Center, Egypt
2Concrete Structures, Faculty of Engineering, Cairo University, Cairo, Egypt
Abstract
This research work numerically investigates an innovative shear walls coupling for enhancement of seismic performance of reinforced concrete structures. The new proposed technique links plane, relatively distant, shear walls with a top roof beam constituting framed-shear walls. The investigation is carried out for a twelve-floor reinforced concrete structure under the action of earthquake loading. The investigated structure has a flat slab-column construction system with four shear walls, 400 mm x 3000 mm each, as the main lateral load resisting system. Each pair of aligned walls are connected at their top by a 6-meters long stiff beam. The top beam has the same width as the shear walls and different depths ranging from 500 mm to 3000 mm.  Analysis is carried out using the Applied Element Method. The Applied Element Method (AEM) is a discrete follows a discrete crack approach which was proven to track the structural collapse behavior passing through all stages of the application of loads. Behavior is evaluated in terms of the flexural moment redistribution in shear walls, the lateral load capacity increase of the walls, and the highest peak ground accelerations that the structure can withstand.
هذا البحث يتضمن دراسة نظرية علي منشا خرساني مکون من 12 دور و ذلک لتحسين اداء المنشات الخرسانية      و مقاوتها لاحمال الزلازل عن طريق اضافة کمرة ذات جساءة عاليه تربط بين الحوائط الخرسانية المسلحة المجاورة لبعضها البعض عند اخر دور في المبني. المنشا هيکل خرساني النظام الانشائي له عبارة عن بلاطات مسطحة و به اربع حوائط خرسانية مسلحة و تم تعريضه لاحمال زلزالية عن طريق احد البرامج التحليلية المتخصصة في دراسة انهيار المنشات و تحليله و دراسة تاثير وجود الکمرة الرابط بين الحوائط علي مدي قدرة المبني علي تحمل احمال الزلازل و زيادة جساءة المبني.
Keywords
shear walls; Stiffening Beam, variable depth and Dynamic Analysis
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