2026 Hamed Farokhi: Mechanical and Aerospace Engineering Researcher – H-Index, Publications & Awards

Discipline name	D-Index	World Ranking	Current World Ranking	National Ranking	Current National Ranking	Publications	Citations
Rising Stars	40	650	650	33	33	139	7239
Mechanical and Aerospace Engineering	42	1820	1683	130	116	139	7371

Research.com Recognitions

2025 - Research.com Rising Stars Award

Overview

Hamed Farokhi is affiliated with Northumbria University in the United Kingdom and conducts research primarily in the field of Engineering. Their work encompasses various subfields including Control and Systems Engineering, Civil and Structural Engineering, Computational Mechanics, Mechanics of Materials, and Mechanical Engineering.

Their research topics span several areas, notably:

Vibration and Dynamic Analysis
Fluid Dynamics and Vibration Analysis
Vibration Control and Rheological Fluids
Composite Structure Analysis and Optimization
Structural Health Monitoring Techniques
Innovative Energy Harvesting Technologies
Wind Energy Research and Development

Farokhi has contributed to journals and conferences with multiple publications. Frequent publication venues include:

Mechanical Systems and Signal Processing
Nonlinear Dynamics
Thin-Walled Structures
International Journal of Engineering Science
International Journal of Mechanical Sciences

Recent selected papers authored by Hamed Farokhi include:

Experimentally validated geometrically exact model for extreme nonlinear motions of cantilevers, 2021, Nonlinear Dynamics
Geometrically exact dynamics of cantilevered pipes conveying fluid, 2021, Journal of Fluids and Structures
Three-dimensional nonlinear extreme vibrations of cantilevers based on a geometrically exact model, 2021, Journal of Sound and Vibration

Aside from their own publications, their frequent coauthors are:

Alper Ertürk
Mergen H. Ghayesh
Shine Win Naung
Mohammad Rahmati

Hamed Farokhi's research addresses complex issues related to the nonlinear dynamics and vibrations of structural systems, particularly cantilevers and fluid-structure interaction problems. Their work often involves developing and validating geometrically exact models for extreme nonlinear motions, contributing to an enhanced understanding of structural behavior under dynamic loads.

The combination of expertise in computational mechanics and control engineering enables their investigations into vibration control techniques and the optimization of composite structures. Innovations in energy harvesting technologies and structural health monitoring methods are also among their areas of focus, reflecting a multidisciplinary approach to engineering challenges.

Best Publications

Nonlinear behaviour of electrically actuated MEMS resonators

Mergen H. Ghayesh;Hamed Farokhi;Marco Amabili

304
Citations
Nonlinear forced vibrations of a microbeam based on the strain gradient elasticity theory

Mergen H. Ghayesh;Marco Amabili;Hamed Farokhi

302
Citations
Nonlinear dynamics of a microscale beam based on the modified couple stress theory

Mergen H. Ghayesh;Hamed Farokhi;Marco Amabili

292
Citations
NONLINEAR DYNAMICS OF A GEOMETRICALLY IMPERFECT MICROBEAM BASED ON THE MODIFIED COUPLE STRESS THEORY

Hamed Farokhi;Mergen H. Ghayesh;Marco Amabili

277
Citations
A review on the mechanics of nanostructures

Ali Farajpour;Mergen H. Ghayesh;Hamed Farokhi

250
Citations
Three-dimensional nonlinear size-dependent behaviour of Timoshenko microbeams

Mergen H. Ghayesh;Marco Amabili;Hamed Farokhi

243
Citations
Thermo-mechanical dynamics of perfect and imperfect Timoshenko microbeams

Hamed Farokhi;Mergen H. Ghayesh

239
Citations
Nonlinear dynamical behaviour of geometrically imperfect microplates based on modified couple stress theory

Hamed Farokhi;Mergen H. Ghayesh

216
Citations
Nonlinear dynamics of microplates

Mergen H. Ghayesh;Hamed Farokhi

207
Citations
In-plane and out-of-plane nonlinear size-dependent dynamics of microplates

Alireza Gholipour;Hamed Farokhi;Mergen H. Ghayesh

205
Citations
In-plane and out-of-plane motion characteristics of microbeams with modal interactions

Mergen H. Ghayesh;Hamed Farokhi;Marco Amabili

197
Citations
Chaotic motion of a parametrically excited microbeam

Mergen H. Ghayesh;Hamed Farokhi

187
Citations
Size-dependent performance of microgyroscopes

Mergen H. Ghayesh;Hamed Farokhi;Gursel Alici

183
Citations
Nonlinear mechanics of electrically actuated microplates

Hamed Farokhi;Mergen H. Ghayesh

143
Citations
Nonlinear oscillations of functionally graded microplates

Mergen H. Ghayesh;Hamed Farokhi;Alireza Gholipour;Mohammad Tavallaeinejad

139
Citations
Oscillations of functionally graded microbeams

Mergen H. Ghayesh;Hamed Farokhi;Alireza Gholipour

138
Citations
Size-dependent parametric dynamics of imperfect microbeams

Hamed Farokhi;Mergen H. Ghayesh

126
Citations
Coupled global dynamics of an axially moving viscoelastic beam

Mergen H. Ghayesh;Marco Amabili;Hamed Farokhi

122
Citations
Vibration analysis of geometrically imperfect three-layered shear-deformable microbeams

Mergen H. Ghayesh;Hamed Farokhi;Alireza Gholipour

118
Citations
Coupled nonlinear size-dependent behaviour of microbeams

Mergen H. Ghayesh;Hamed Farokhi;Marco Amabili

108
Citations
Viscoelastically coupled size-dependent dynamics of microbeams

Mergen H. Ghayesh;Hamed Farokhi;Shahid Hussain

101
Citations

Frequent Co-Authors

Mergen H. Ghayesh University of Adelaide

Marco Amabili Westlake University

Gursel Alici University of Wollongong

Michael P. Païdoussis McGill University

Arun K. Misra McGill University

Ali Farajpour University of Adelaide

Maziar Arjomandi University of Adelaide

External Links

Personal website of Hamed Farokhi Google Scholar page

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