Assessment of damper performance in controlling cable vibrations using a reliability-based framework

IF 0.7 Q4 ENGINEERING, CIVIL International Journal of Structural Engineering Pub Date : 2017-01-25 DOI:10.1504/IJSTRUCTE.2017.081670

S. Mohammadi, Shaohong Cheng, F. Ghrib

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引用次数: 1

Abstract

Owing to their long flexible nature and low intrinsic damping, bridge stay cables are prone to various types of wind-induced vibrations, among which the rain-wind-induced vibration is most frequently observed on site. External dampers are widely used to control such unfavourable cable oscillations and their effectiveness in suppressing large-amplitude cable vibrations was addressed in many studies using deterministic approaches. However, the mechanical and/or physical properties of cables and the attached dampers could not only deviate from their respective nominal design values at a given design point, but also vary considerably during the lifetime of a cable-stayed bridge and thus affect damper efficiency. Hence, for a realistic damper performance assessment, these uncertainties should be taken into account. The objective of this paper is to present a time-variant reliability-based framework model to assess how uncertainties in the structural parameters of a cable-damper system would influence the time specific reliability performance of an external damper yielded from the current design practice.

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基于可靠性框架控制缆索振动的阻尼器性能评估

桥梁斜拉索由于其较长的柔性和较低的固有阻尼，容易产生各种类型的风致振动，其中现场最常见的是雨-风致振动。外部阻尼器被广泛用于控制这种不利的电缆振动，并且在许多使用确定性方法的研究中讨论了它们在抑制大振幅电缆振动方面的有效性。然而，缆索和附加阻尼器的机械和/或物理性能不仅可能在给定设计点偏离其各自的标称设计值，而且在斜拉桥的使用寿命期间也会发生很大变化，从而影响阻尼器的效率。因此，对于实际的阻尼器性能评估，应考虑这些不确定性。本文的目的是提出一个基于时变可靠性的框架模型，以评估缆索阻尼器系统结构参数的不确定性如何影响当前设计实践中产生的外部阻尼器的时变可靠性性能。

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来源期刊

International Journal of Structural Engineering Engineering-Civil and Structural Engineering

CiteScore

2.40

自引率

23.10%

发文量