Corrosion-induced degradation assessment of steel beam using vibration-based scheme

腐蚀 梁(结构) 结构工程 材料科学 振动 弯曲 有限元法 复合材料 工程类 量子力学 物理
作者
Animesh Paral,Amiya K. Samanta,Amarendra Nath Shandilya
出处
期刊:International Journal of Structural Integrity [Emerald Publishing Limited]
卷期号:12 (5): 815-825 被引量:4
标识
DOI:10.1108/ijsi-12-2020-0126
摘要

Purpose Catastrophe of steel-structured bridges due to progressive localized corrosion may lead to a major loss in terms of life and cost if not monitored continuously or periodically. The purpose of this paper is to present a vibration-based strategy to assess the severity and monitor the deterioration caused by corrosion-induced localized damage in a simply-supported steel beam. Design/methodology/approach The threshold damage level is defined up to the yield limit of a simply supported steel beam of size ISMB 150 × 8 × 5 under three-point bending test and the progressive damage is induced through a continuous accelerated corrosion test. Change in the fundamental natural frequency due to localized damage in the experimental beam and the modulus of elasticity (E) in the corroded zone of an updated finite element (FE) model is evaluated. Findings The updated FE model of the damaged beam shows a clear trend with the progressive damage of the beam and, hence, can be used to monitor the severity of damage and remaining capacity assessment of the monitored beam. Originality/value Steel-structured bridges are prone to localized corrosion attack, and there are no standardized process or predictive model available by international steel design codes on how to consider corrosion damage in the condition assessment analysis. The vibration-based methods have gained popularity for condition assessment, and are mostly confined to damage assessment of corroded reinforced concrete (RC) beams. In this work, a vibration-based approach is presented for degradation assessment of steel beam due to progressive localized corrosion using modal hammer test.

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