This study introduces an alternative approach to the assessment of the earthquake resistance of existing buildings and the evaluation of the requirements for seismic retrofit through external stiffening.
Instead of assessing individual structural components, we evaluate the entire building using a nonlinear static pushover analysis.
Earthquake resistance of the building is defined as a ratio between the total energy that the existing structure can absorb and the energy at its ideal (upgraded) state estimated using the capacity curves obtained from the pushover analysis. The required retrofitting can then be assessed as the stiffness needed to be added to achieve the desired resistance.
The study establishes the definition for the ideal capacity of an existing structure, safe displacement limits, and a procedure for deriving the target capacity curves and earthquake-resistance factors.
The proposed procedure is applied to a benchmark example, demonstrating that upgrading sub-standard RC structures can be achieved by adding external stiffening members without strengthening individual components.
The study also shows that traditional assessment procedures have limited capability to evaluate earthquake resistance in existing buildings with low ductility.
The developed procedure provides an essential tool for comparative assessments of retrofitting scenarios and profitability evaluations.
