Behavior and Performance of Reinforced Concrete Columns Subjected to Accelerated Corrosion

Abstract: Steel reinforcement corrosion in concrete structures such as bridges, industrial plants, marine structures, and coastal buildings is a growing concern due to its impact on cost, safety, and serviceability. Corrosion leads to spalling, cracking, and reduced reinforcement diameter, which can compromise structural integrity. This study examines the behavior of concrete columns with corroded reinforcement in two phases. In the first phase, 72 columns of 150 × 150 mm cross-sectional dimensions and 300 mm length wer… Show more

“…These methods Eng 2024, 5 368 aim to prevent the conventional design approach by enabling structural elements to dissipate and absorb seismic energy, thereby, minimizing inelastic deformations. However, this strategy involves deliberately inducing cyclic deformations in specific areas, which can lead to structural damage that may render the structure irreparable over time [11][12][13][14].…”

Enhancing Seismic Resilience: Evaluating Buildings with Passive Energy Dissipation Strategies

“…These methods Eng 2024, 5 368 aim to prevent the conventional design approach by enabling structural elements to dissipate and absorb seismic energy, thereby, minimizing inelastic deformations. However, this strategy involves deliberately inducing cyclic deformations in specific areas, which can lead to structural damage that may render the structure irreparable over time [11][12][13][14].…”

Enhancing Seismic Resilience: Evaluating Buildings with Passive Energy Dissipation Strategies

Asymmetric deterioration of reinforced concrete marine piles subjected to nonuniformly localized corrosion: Experimental study