Abstract
This paper aims at assessing the influence of the design procedure followed in designing the columns of a reinforced concrete (R/C) building on the performance of the columns, as well as of the structure as a whole, when subjected to seismic loading; to identify potential weaknesses in currently adopted procedures; and to present a new procedure which is based on currently-available, powerful analytical tools, and results in increased reliability with regard to seismic loading. Two case studies are presented, involving multistorey reinforced concrete buildings with frame and dual structural systems subjected to various appropriately-scaled input accelerograms. The results obtained indicate that capacity design of columns results in adequate safety margins against failure, even when the adopted overstrength factors are quite low, but hinging in columns is not avoided unless very high overstrength factors are used. The suggested novel technique of capacity design led to very satisfactory seismic performance, and offers the possibility of cost reduction by achieving an appropriate balance between provided flexural strength and corresponding confinement.
Original language | British English |
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Pages (from-to) | 341-399 |
Number of pages | 59 |
Journal | Journal of Earthquake Engineering |
Volume | 1 |
Issue number | 2 |
DOIs | |
State | Published - 1997 |
Keywords
- Capacity design
- Inelastic analysis
- Reinforced concrete buildings
- Seismic assessment