Abstract
Different researchers have performed seismic hazard assessment studies for Pakistan using faults sources which differ from Building Code of Pakistan (BCP 2007) with diverse standard deviations. The results of seismic hazard studies indicate that BCP requires gross revision considering micro and macro level investigations. The recent earthquakes in Pakistan also damaged bridge structures and some studies have been conducted by different researchers to investigate capacity of existing bridges. The most of bridge stock in Pakistan has been designed assuming seismic loads as 2%, 4% and 6% of dead loads following West Pakistan Code of Practice for Highway Bridges. The capacity of eight selected real bridges, two from each seismic zone 2A, 2B, 3 & 4 is checked against BCP demands. Static and dynamic analyses were performed and the piers were checked for elastic limits. It is established that piers are on lower side in capacity and the bridges in zone 2A are generally less vulnerable. Whereas the bridges in zone 2B, 3 and 4 are vulnerable from medium to very high level. Hence, an in-depth analytical vulnerability study of bridge stock particularly in high-risk zone needs to be conducted on priority and appropriate seismic retrofitting schemes need to be proposed.
Highlights
The collision of Indian plate with Eurasian plate is core reason for the creation of the Himalayan Ranges
The values given by each researcher differ from those of Building Code of Pakistan (BCP) with diverse standard deviations for different cities of Pakistan
The above studies and survey indicate that the seismic demands at many places in Pakistan are higher than those given in BCP 2007
Summary
Existing RC bridges in Pakistan built prior to Kashmir Earthquake (2005) lack sufficient strength and ductility to account for the present seismic demand requirements. Bridges in Pakistan have been designed according to Government of West Pakistan Code of Practice for Highway Bridges. Hafiz et al Seismic vulnerability of reinforced concrete bridges in Pakistan (WPCPHB) (Highway Department, Government of West Pakistan Lahore, 1967) in which the seismic requirements were not very stringent. The current study focuses on evaluating the seismic hazard of existing Bridges in Pakistan based on Post Kashmir earthquake studies. Equivalent Seismic demand of bridge piers (being the most vulnerable elements) corresponding to modified seismic loads and as per WPCPHB (Highway Department, Government of West Pakistan Lahore, 1967) are calculated to evaluate vulnerability
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