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Catenary Behaviour in Concrete Slabs: Experimental and Numerical Investigation of the Structural Behaviour

 Catenary Behaviour in Concrete Slabs: Experimental and Numerical Investigation of the Structural Behaviour
Auteur(s): , ORCID,
Présenté pendant IABSE Workshop: Safety, Failures and Robustness of Large Structures, Helsinki, Finland, 14-15 February 2013, publié dans , pp. 276-282
DOI: 10.2749/222137813807018827
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A very important property of concrete structures with regard to robustness is the rigid connectivity with neighbouring elements. When a hyperstatic concrete slab is excessively loaded or when a cer...
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Détails bibliographiques

Auteur(s):
ORCID

Médium: papier de conférence
Langue(s): anglais
Conférence: IABSE Workshop: Safety, Failures and Robustness of Large Structures, Helsinki, Finland, 14-15 February 2013
Publié dans:
Page(s): 276-282 Nombre total de pages (du PDF): 7
Page(s): 276-282
Nombre total de pages (du PDF): 7
Année: 2013
DOI: 10.2749/222137813807018827
Abstrait:

A very important property of concrete structures with regard to robustness is the rigid connectivity with neighbouring elements. When a hyperstatic concrete slab is excessively loaded or when a certain support is lost due to an accidental situation, membrane forces can be activated in order to establish a load transfer to the remaining supports. This favourable effect can considerably enhance the slab’s load-carrying capacity compared to predictions obtained from small deformation theories. Thus, membrane actions can prevent or delay a progressive collapse and increase the robustness of concrete structures.

A novel real-scale test set-up has been developed in order to assess the structural behaviour under catenary action in real-scale concrete slabs and the influence of reinforcement curtailment, since in current design practice the main flexural reinforcement is calculated for the slab’s critical sections and consequently the reinforcement is curtailed based on the envelope of the acting internal actions. The investigations include the testing of a reinforced concrete slab strip with continuous flexural reinforcement over the entire length and a second test differing only from the reinforcement arrangement, considering current design codes for reinforcement curtailment. The slab specimens were exposed to an artificial failure of the central support and subsequent vertical loading until collapse.

Furthermore, finite element methods allow to simulate the behaviour of concrete slabs under these large deformations. Numerical FEM analysis of the executed real-scale tests will be explained and compared with the experimental results. Finally, the influence of reinforcement curtailment on the overall performance under catenary action will be discussed.

Mots-clé:
béton robustesse