Search engine for discovering works of Art, research articles, and books related to Art and Culture
Javascript must be enabled to continue!
Seismic Fragility Assessment of Concrete Bridge Pier Reinforced with Superelastic Shape Memory Alloy
View through CrossRef
In an attempt to reduce permanent displacement and damage, a hybrid reinforced concrete (RC) bridge pier configuration is considered in the present study. The plastic hinge region of the bridge pier is reinforced with superelastic shape memory alloy (SMA) and the remaining portion with regular steel. This paper focuses on fragility‐based seismic vulnerability assessment for a SMA‐RC bridge pier considering residual displacement, displacement ductility, and performance criteria as the demand parameters. Fragility curves are developed to assess the relative vulnerability of a SMA‐RC bridge pier and a conventional steel‐RC bridge pier using probabilistic seismic demand model (PSDM). The fragility curves are developed with a suite of 20 near‐fault ground motions using incremental dynamic analysis. The fragility curves provide insight into the failure probability of the bridge piers and aid in expressing the impact of SMA on the bridge pier vulnerability.
Title: Seismic Fragility Assessment of Concrete Bridge Pier Reinforced with Superelastic Shape Memory Alloy
Description:
In an attempt to reduce permanent displacement and damage, a hybrid reinforced concrete (RC) bridge pier configuration is considered in the present study.
The plastic hinge region of the bridge pier is reinforced with superelastic shape memory alloy (SMA) and the remaining portion with regular steel.
This paper focuses on fragility‐based seismic vulnerability assessment for a SMA‐RC bridge pier considering residual displacement, displacement ductility, and performance criteria as the demand parameters.
Fragility curves are developed to assess the relative vulnerability of a SMA‐RC bridge pier and a conventional steel‐RC bridge pier using probabilistic seismic demand model (PSDM).
The fragility curves are developed with a suite of 20 near‐fault ground motions using incremental dynamic analysis.
The fragility curves provide insight into the failure probability of the bridge piers and aid in expressing the impact of SMA on the bridge pier vulnerability.
Related Results
He found use for reinforced concrete where, it would seem, this material has no place
He found use for reinforced concrete where, it would seem, this material has no place
Introduction. The article is devoted to an employee of the Research Institute of Reinforced Concrete, Doctor of Technical Sciences, Professor I.G. Ludkovsky, a specialist in the fi...
Improvement of seismic performance of ordinary reinforced partially grouted concrete masonry shear walls
Improvement of seismic performance of ordinary reinforced partially grouted concrete masonry shear walls
Reinforced masonry constitutes about 10% of all low-rise construction in the US. Most of these structures are commercial and school buildings. It may also be used for multi-story h...
Seismic Response Analysis of Rocking Piers with Different Mass Ratios
Seismic Response Analysis of Rocking Piers with Different Mass Ratios
The rocking pier relaxes the constraints between the pier and the superstructure and foundation, and connects the pier and adjacent components as a whole through unbonded prestress...
Study on the effect of seawater on making and curing of unreinforced concrete applications
Study on the effect of seawater on making and curing of unreinforced concrete applications
Concrete, an essential component of worldwide infrastructure, depends significantly on fresh water for its manufacturing, contributing to freshwater scarcity in many regions. As co...
Braided tubular superelastic cables provide improved spinal stability compared to multifilament sublaminar cables
Braided tubular superelastic cables provide improved spinal stability compared to multifilament sublaminar cables
This study investigates the use of braided tubular superelastic cables, previously used for sternum closure following sternotomy, as sublaminar fixation method. It compares the bio...
4D Seismic on Gullfaks
4D Seismic on Gullfaks
SUMMARY
New technologies are rapidly emerging helping to obtain optimal drainage of large reservoirs. 4D seismic is such a reservoir monitoring technique. The phy...
Seismic Frequency Enhancement for Mapping and Reservoir Characterization of Arab Formation: Case Study Onshore UAE
Seismic Frequency Enhancement for Mapping and Reservoir Characterization of Arab Formation: Case Study Onshore UAE
Abstract
Mapping and discrimination of Upper Jurassic Arab reservoirs (Arab A/B/C and D) in this 3D seismic onshore field of Abu Dhabi, is very sensitive to the seis...
Vibration Analysis of a Ni-Ti Shape Memory Alloy Rod
Vibration Analysis of a Ni-Ti Shape Memory Alloy Rod
In this paper the effect of stress induced phase transformation on the vibration response
of SMA structures has been studied. To this end, a Ni-Ti clamped-free rod in the superelas...