Multi-Scale Earthquake Impacts: a Review of the State-Of-The-Art in Modeling Loss of Functionality in Buildings

Abstract eng:
Earthquake-induced damage to the built infrastructure can generate enormous societal impact, ranging from displacement of individual families and businesses to disruption of entire economic sectors and public services. Consequently, engineers play a critical role in mitigating these cascading, multi-scale earthquake impacts. A significant component in this effort involves designing buildings and other structures to avoid the types of damage that can lead to loss of functionality and downtime after an earthquake. Towards this end, this paper describes the state-of-the-art in assessing earthquake-induced loss of functionality in individual buildings. More specifically, it details how earthquake-induced loss of functionality within the built infrastructure can generate multi-scale impacts that cascade through a community across space and time. It also proposes a consistent hierarchy of definitions for building functionality and examines the myriad combinations of events and failures that can impact it, culminating with the development of functionality restoration curves that graphically depict how the availability of various building components and systems affect the recovery of functionality. The paper then reviews both recently developed analytical models for evaluating loss of functionality in individual buildings and also current practice for designing buildings to maintain or regain functionality after earthquakes. Lastly, the paper identifies several critical gaps in knowledge and areas of future research that need to be addressed in order for the engineering profession to more effectively design buildings to regain functionality soon after a major earthquake.

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