A Comparative Study to Evaluate the Effectiveness of Different Structural Forms for Medium-Rise Apartment Buildings

The rapid urban migration and the infrequency of spaces in megacities have become a challenge for all most all countries. To fulfill the housing requirements of the ever-growing population with the scarcity of valuable lands, the best solution is to come up with high-rise or medium-rise apartment bu...

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Bibliographic Details
Main Authors: Wijekoon, Sachintha, Jayasinghe, Thishan, Herath, Sumudu, Herath, Anuruddha
Format: Conference Proceeding
Language:English
Subjects:
Bending
Buildings
Earthquakes
Frame-tube
Insulators
Loading
Medium-rise buildings
Rigid frames
Shear walls
Sociology
Statistics
Structural forms
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Summary:The rapid urban migration and the infrequency of spaces in megacities have become a challenge for all most all countries. To fulfill the housing requirements of the ever-growing population with the scarcity of valuable lands, the best solution is to come up with high-rise or medium-rise apartment buildings. Even though there are different structural forms that can be incorporated into high-rise apartment structures, most of the time structural designers select based on their experience and approach which are not effective all the time. The structural design for a given structure should be optimum in terms of structural performance and associated costs. Since wind and seismic forces govern the design of high-rise structures, those lateral forces are significant to be studied. So, this analytical study was carried out to evaluate the effectiveness of six different structural systems of 20-story RC (Reinforced Concrete) structures under the effect of wind and seismic loadings including a moment-resisting frame as the base model, four wall frame structures and a frame-tube structure. Models are compared based on the parameters such as maximum top storey displacement, inter-storey drift ratios, member forces and moments utilization, seismic induced base shear and human perception levels of lateral acceleration.
ISSN:2691-364X
DOI:10.1109/MERCon55799.2022.9906243