Seismic Rehabilitation of a Three-Storey R/C Flat-Slab Prototype Structure Using Different Techniques

Marco Valente

doi:10.4028/www.scientific.net/AMM.193-194.1346

Paper Titles

Analysis on Steel-Concrete Interface of Hybrid Self-Anchored Suspension Bridge
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Prevent Fabricated Floor Slit Cracking Construction Technology
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Bridge Structure Random Reliability Analysis
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Damage Identification for Beam Structure Based on Correlation Dimension
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Seismic Rehabilitation of a Three-Storey R/C Flat-Slab Prototype Structure Using Different Techniques
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Study on Stability Behavior of Cable-Stayed Ultra-High Strength Steel Column with Welded I-Section
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Research on Carbon Fiber Strengthening Node of Reinforced Concrete Framework under the Action of Seismic Wave
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Study on the Recycled Concrete Beam’s Stiffness
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Experimental Research of Bending Capacity of Normal Section of Steel Fiber Reinforced Concrete Wall-Beams Simply Supported
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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 193-194Seismic Rehabilitation of a Three-Storey R/C...

Seismic Rehabilitation of a Three-Storey R/C Flat-Slab Prototype Structure Using Different Techniques

Abstract:

This paper presents some results of a numerical study on the seismic performance and retrofitting of a R/C flat-slab prototype structure. The study was based on an experimental program carried out at the JRC ELSA Laboratory with the aim of assessing the seismic behaviour of flat-slab structures. Numerical models of the test structure were developed and nonlinear static and dynamic analyses were carried out. Two seismic retrofit techniques were numerically simulated to enhance the seismic performance of the structure. First the structure was rehabilitated by concrete jacketing of columns with added longitudinal and transverse reinforcement. The second intervention was based on confinement of column ends by using FRP wrapping. The results of this study provide information about the seismic performance of a common type of R/C structure not covered by the provisions of Eurocode 8, as well as the potential to mitigate the expected damage for varying earthquake intensity through retrofit. The comparison of the overall seismic response of the bare and rehabilitated structures showed the seismic performance improvements provided by the retrofitting interventions.

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Periodical:

Applied Mechanics and Materials (Volumes 193-194)

Pages:

1346-1351

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.193-194.1346

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Online since:

August 2012

Authors:

Marco Valente

Keywords:

FRP-Wrapping, R/C Flat-Slab Prototype Structure, R/C Jacketing, Seismic Rehabilitation

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References

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