Explosive loading of multi storey RC buildings: Dynamic response and progressive collapse
article
The resilience of a city confronted with a terrorist bomb attack is the background of the paper. The resilience strongly depends on vital infrastructure and the physical protection of people. The protection buildings provide in case of an external explosion is one of the important elements in safety assessment. Besides the aspect of protection, buildings facilitate and enable many functions, e.g., offices, data storage, -handling and -transfer, energy supply, banks, shopping malls etc. When a building is damaged, the loss of functions is directly related to the location, amount of damage and the damage level. At TNO Defence, Security and Safety methods are developed to quantify the resilience of city infrastructure systems (Weerheijm et al. 2007b). In this framework, the dynamic response, damage levels and residual bearing capacity of multi-storey RC buildings is studied. The current paper addresses the aspects of dynamic response and progressive collapse, as well as the proposed method to relate the structural damage to a volume-damage parameter, which can be linked to the loss of functionality. After a general introduction to the research programme and progressive collapse, the study of the dynamic response and damage due to blast loading for a single RC element is described. Shock tube experiments on plates are used as a reference to study the possibilities of engineering methods and an explicit finite element code to quantify the response and residual bearing capacity. Next the dynamic response and progressive collapse of a multi storey RC building is studied numerically, using a number of models. Conclusions are drawn on the ability to predict initial blast damage and progressive collapse. Finally the link between the structural damage of a building and its loss of functionality is described, which is essential input for the envisaged method to quantify the resilience of city infrastructure.
Topics
BuildingsConcreteDamage assessmentExperimentsExplosionsFinite elementsRate dependencyResilience of infrastructureSafetyStructural dynamicsDamage assessmentFinite elementsRate dependencyResilience of infrastructureSafetyBearing capacityBearings (structural)Concrete buildingsDamage detectionData handlingDynamicsExperimentsExplosionsExplosivesFinite element methodShopping centersStructural dynamicsWeldsDynamic response
TNO Identifier
183618
Source
Structural Engineering and Mechanics, 32(May), pp. 193-212.
Pages
193-212
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