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Damage Analysis of Reinforced Concrete Structures with Substandard Detailing
The goal of this study is to investigate seismic behaviour of existing R/C buildings designed and constructed in accordance with standards that do not meet current seismic code requirements. In these structures, not only flexure, but also shear and bond-slip deformation mechanisms need to be considered, both separately and in combination. To serve this goal, a finite element model is developed for inelastic seismic analysis of complete planar R/C frames. The proposed finite element is able to capture gradual spread of inelastic flexural and shear deformations as well as their interaction in the end regions of R/C members. Additionally, it is capable of predicting shear failures caused by degradation of shear strength in the plastic hinges of R/C elements, as well as pullout failures caused by inadequate anchorage of the reinforcement in the joint regions. The finite element is fully implemented in the general inelastic finite element code IDARC2D and it is verified against experimental results involving individual column and plane frame specimens with non-ductile detailing. It is shown that, in all cases, satisfactory correlation is established between the model predictions and the experimental evidence. Finally, parametric studies are conducted to illustrate the significance of each deformation mechanism on the seismic response of the specimens under investigation. It is concluded, that all deformation mechanisms, as well as their interaction, should be taken into consideration in order to predict reliably seismic damage of R/C structures with substandard detailing.
Damage Analysis of Reinforced Concrete Structures with Substandard Detailing
The goal of this study is to investigate seismic behaviour of existing R/C buildings designed and constructed in accordance with standards that do not meet current seismic code requirements. In these structures, not only flexure, but also shear and bond-slip deformation mechanisms need to be considered, both separately and in combination. To serve this goal, a finite element model is developed for inelastic seismic analysis of complete planar R/C frames. The proposed finite element is able to capture gradual spread of inelastic flexural and shear deformations as well as their interaction in the end regions of R/C members. Additionally, it is capable of predicting shear failures caused by degradation of shear strength in the plastic hinges of R/C elements, as well as pullout failures caused by inadequate anchorage of the reinforcement in the joint regions. The finite element is fully implemented in the general inelastic finite element code IDARC2D and it is verified against experimental results involving individual column and plane frame specimens with non-ductile detailing. It is shown that, in all cases, satisfactory correlation is established between the model predictions and the experimental evidence. Finally, parametric studies are conducted to illustrate the significance of each deformation mechanism on the seismic response of the specimens under investigation. It is concluded, that all deformation mechanisms, as well as their interaction, should be taken into consideration in order to predict reliably seismic damage of R/C structures with substandard detailing.
Damage Analysis of Reinforced Concrete Structures with Substandard Detailing
Computational Methods
Papadrakakis, Manolis (editor) / Fragiadakis, Michalis (editor) / Plevris, Vagelis (editor) / Mergos, Panagiotis E. (author) / Kappos, Andreas J. (author)
2013-01-01
28 pages
Article/Chapter (Book)
Electronic Resource
English
Damage Analysis of Reinforced Concrete Structures with Substandard Detailing
| Tema Archive | 2013
Damage Analysis of Reinforced Concrete Structures with Substandard Detailing
| British Library Conference Proceedings | 2013
Detailing of Reinforced Concrete Structures
| British Library Conference Proceedings | 2001
Detailing of Reinforced Concrete Structures
| British Library Conference Proceedings | 2001
Detailing of Reinforced Concrete Structures
| British Library Conference Proceedings | 2001