Mohammad Bavandi scite author profile

Mohammad Bavandi

5Publications

0Citation Statements Received

0Citation Statements Given

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114

Affiliations

Iran University of Science and Technology, Islamic Azad University, Science and Research Branch

Publications

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The influence pulse-like near-field earthquakes on repairability index of reversible in mid-and short-rise buildings

Bavandi

2022

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Conventional earthquake-resistant systems, often experience inelastic behavior in a part of the structure during a large earthquake and eventually causing residual deformation and damage to the structure. Repairing these damages are unaffordable and often leads to structure destruction. Therefore, the use of structures with the ability to focus damage on interchangeable elements, which leads to reduced earthquake damage, is very important. Due to the importance of the performance of self-centering structures to reduce their damage against various earthquakes, in this study, the Repairability Index of Post-tensioned Self-Centering Frame for Near-Field earthquake (RIPSCF-N) has been developed. According to the 12 models of the studied building, a building that can be repaired, that the maximum rotation in its connection after the earthquake does not exceed the rotation of the immediate occupancy performance. Based on this, the output data of Incremental Dynamic Analysis (IDA) in OpenSees were drawn according to the connection of relative rotation and spectral acceleration. According to the predicted performance levels of Garlock for each acceleration level, the value of the connection opening is divided by the opening of the Design Basis Earthquake (DBE) level. The resulting curve shows the repairability index according to spectral acceleration, which if less than one, the repairability target is achieved. To evaluate the damage of angles, the Angle Failure Probability of Post-tensioned Self-Centering Frame for Near-Field earthquake (AFPPSCF-N) has been developed. This index equation is determined according to the fragility curve and the intensity of damage in each building.

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Computation of the repairability index of short buildings with rocking connections

Bavandi

Moghadam

Mansoori

et al. 2022

Proceedings of the Institution of Civil Engineers - Forensic En

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Recently developed steel self-centring moment-resisting frames have been analytically and experimentally validated as having the potential to eliminate structural damage under a design basis earthquake and restore their original vertical position following a major earthquake. In this study, the repairability index of post-tensioned self-centring frame for near-field earthquake has been developed. According to the six models of the studied building, a building that can be repaired, the maximum rotation in its connection after the earthquake does not exceed the rotation of the immediate occupancy performance. Based on this, the output data of incremental dynamic analysis analyses were drawn according to the connection of relative rotation and spectral acceleration. According to the predicted performance levels for each acceleration level, the value of the connection opening is divided by the opening of the design-basis earthquake level. The resulting curve shows the repairability index according to spectral acceleration, which if less than one, the repairability target is achieved. To evaluate the damage, the angle failure probability of post-tensioned self-centring frame for near-field earthquake has been developed. This index equation is determined according to the fragility curve and the intensity of damage in each building.

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Assessment of Repairability Index of Building Connections with Posttensioned Strands

Bavandi

Moghadam

Mansoori

et al. 2022

Pract. Period. Struct. Des. Constr.

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Development of repairability index for steel moment frames with post-tensioned self-centering connections

Bavandi

Moghadam²,

Mansoori³

et al. 2022

Construction and Building Materials

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Introducing a new seismic efficiency index of post-tensioned self-centering steel moment connections

Bavandi

Moghadam²,

Mansoori³

et al. 2021

Structures

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