PHD at Sharif University of Technology, Iran
Prof. Yaghoub Tadi Beni is a full professor of Solid Mechanics at Shahrekord University in Iran. He earned his B.Sc. degree in Solid Mechanics from Isfahan University of Technology in 2002, and M.Sc. and Ph.D. degrees in Mechanical Engineering from Sharif University of Technology in 2004 and 2009, respectively. His research focuses on micro/nano mechanics, modeling of micro/nano electromechanical systems (M/NEMS), nonlinear/nonclassical continuum mechanics, and the nonlinear stability of micro/nanostructures. With over 110 publications in international peer-reviewed journals and an h-index of 35, Prof. Tadi Beni is a prominent figure in his field.
Professional Profiles
Education
He earned his B.Sc. degree in Solid Mechanics from Isfahan University of Technology in 2002, and M.Sc. and Ph.D. degrees in Mechanical Engineering from Sharif University of Technology in 2004 and 2009
Fields of Research
Nano-Mechanics/Nano-structure Stability, Nonlinear/Nonclassical Continuum Mechanics, Nonlinear Analysis of Beams, Plates, and Shells, Nonlinear Finite Element Method.
Publications
Prof. Tadi Beni has published more than 110 research papers in international peer-reviewed journals, highlighting his extensive contributions to the fields of nano-mechanics and nonlinear mechanics.
Research Focuse
Prof. Yaghoub Tadi Beni’s research primarily focuses on the mechanics and stability of micro and nano-scale structures. His work includes size-dependent analysis of functionally graded materials, electromechanical systems, and piezoelectric nanostructures. Using advanced theories such as the modified couple stress theory and nonlocal strain gradient theory, Prof. Tadi Beni investigates free vibration, buckling, and bending behaviors of nanoshells, nanotubes, and nanobeams. His studies are crucial for the development of reliable nano-electromechanical systems (NEMS) and contribute significantly to the understanding of nonlinear and nonclassical continuum mechanics in micro/nanoscale science.
Publications
- Free vibration behaviour of composite laminated skew cylindrical shells reinforced with graphene platelets, Publication date: 2024.
- Generalized piezothermoelasticity of hollow spheres under thermal shock using Lord–Shulman theory, Publication date: 2024.
- On the generalized flexothermoelasticity of a microlayer, Publication date: 2024.
- Vibration analysis of rotating annular flexoelectric microplate, Publication date: 2024.
- Free vibration analysis of piezoelectric nano tube conveying fluid supported by a visco-Pasternak foundation, Publication date: 2023.
- Size-dependent coupled bending-torsional analysis of piezoelectric micro beams, Publication date: 2023.
- Power Law Nanofluid through Tapered Artery based on a Consistent Couple Stress Theory, Publication date: 2023.
- Size-dependent coupled bending-torsional vibration of functionally graded carbon nanotube reinforced composite Timoshenko microbeams, Publication date: 2023.
- Effect of flexoelectricity on the Pull-in instability of beam-type NEMS, Publication date: 2023.
- On the vibration of size-dependent rotating flexoelectric microbeams, Publication date: 2024.
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