Mohammad Amin Farmani scite author profile

Mohammad Amin Farmani

5Publications

64Citation Statements Received

44Citation Statements Given

How they've been cited

How they cite others

147

Affiliations

Monash University, University of Tehran

Publications

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Shape memory alloy-based moment connections with superior self-centering properties

Farmani¹,

Ghassemieh²

2016

Smart Mater. Struct.

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Superelastic shape memory alloys (SMAs) have the potential to create a spontaneous recentering mechanism on the connections of a structural system under seismic actions, which results in mitigation of the damage in the main structural members. In this article, innovative types of steel beam-to-column moment connections incorporating SMA bolts and plates are introduced and studied through a numerical approach. First, SMA bolted end-plate connection model is produced and analyzed by means of the finite element method to validate the numerical analysis against the prior experimental results. Then, the performance of eleven different end-plate moment connection models subjected to cyclic loading is investigated. By selecting the lower values for the moment capacity based on bolts strength in comparison to the flexural resistance of the beam, the plastic hinge is transferred from the beam section to the beam-column interface. Hence, employing superelastic materials at the connection interface could be potentially effective in providing the desired self-centering effect in the connection. To this end, the impact of utilizing superelastic SMA bolts and end-plates instead of using the conventional structural steel on the overall cyclic response of the connections is evaluated in this study. Results show that extended end-plate connections equipped with SMA bolts and end-plates, if properly proportioned and detailed, not only exhibit a clear reduction in the residual drifts after a seismic event, but also can meet the ductility requirements with good energy dissipation and sufficient stiffness.

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Development of design equations for ultra-high strength steel CHS columns under transient fire conditions considering thermal creep and axial restraint effects

Farmani

Heidarpour

2023

Fire Safety Journal

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Steel beam-to-column connections equipped with SMA tendons and energy dissipating devices including shear tabs or web hourglass pins

Farmani

Ghassemieh

2017

Journal of Constructional Steel Research

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Thermal creep of hybrid steel columns comprising ultra-high strength steel tubes and stainless steel plates under transient fire conditions

Farmani

Heidarpour

Woo

2023

Thin-Walled Structures

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A distinctive approach to testing and modeling thermal creep in ultra-high strength steel

Farmani

Heidarpour

Zhao

2021

International Journal of Mechanical Sciences

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