Mostafa Vaezi scite author profile

In this study, the effects of three different viscous damper configurations, chevron, diagonal and toggle, as well as brace stiffness on the performance of brace-viscous damper system in various steel frams under different earthquake records were investigated. A finite element software, ANSYS, is exploited to develop the numerical models. To verify the numerical simulations, their results were compared with those of the experimental studies in the literature. The results show the reduction in the base shear force given by the toggle configuration is larger than that due to the chevron and diagonal configurations. Regarding the brace stiffness (area), for a reference damping coefficient of 500 N.m/s, a 54% increase in the brace area (from 42 to 91.8 mm 2 ) results in a 21.26, 38.61, and 17.57% reduction in the structure displacement response for the diagonal, chevron, and toggle configurations, respectively. Further, using the results of the numerical simulations, we proposed the spatially-optimized distribution of the braceviscous damper system.

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Optimal design of brace-viscous damper and pendulum tuned mass damper using Particle Swarm Optimization

Pourzangbar

Vaezi

2021

Applied Ocean Research

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Effects of stiffness and configuration of brace-viscous damper systems on the response mitigation of offshore jacket platforms

Vaezi

Pourzangbar

Fadavi

et al. 2021

Applied Ocean Research

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Effects of pendulum tuned mass dampers on the dynamic response of jacket platforms

Pourzangbar

Vaezi

2022

Ocean Engineering

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Mostafa Vaezi

Prediction of non-breaking wave induced scour depth at the trunk section of breakwaters using Genetic Programming and Artificial Neural Networks

Effects of Brace-viscous Damper System on the Dynamic Response of Steel Frames

Optimal design of brace-viscous damper and pendulum tuned mass damper using Particle Swarm Optimization

Effects of stiffness and configuration of brace-viscous damper systems on the response mitigation of offshore jacket platforms

Effects of pendulum tuned mass dampers on the dynamic response of jacket platforms

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