Prof. Morteza Eskandari-Ghadi | Structural Mechanics | Best Researcher Award

Teaching and researching, Morteza Eskandari-Ghadi, Professor, University of Tehran, School of Civil Engineering, Iran

Morteza Eskandari-Ghadi, Ph.D., is a distinguished professor in structural mechanics at the University of Tehran 🏛️. With dual Ph.D.s in Structural Mechanics from the University of Colorado, Boulder (2003) and Structural Engineering from the University of Tehran (2001) 🎓, his expertise spans fracture mechanics, composite materials, and wave propagation 🌊. He has held prestigious academic and leadership roles, including serving as Vice President for Academic Affairs at the University of Tehran and a Sabbatical Professor at Chalmers University, Sweden 🇸🇪. His extensive research and teaching contributions make him a leader in civil and structural engineering 🏗️.

Professional Profile

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Education & Experience

📚 Education:

• 🎓 Ph.D. in Structural Mechanics – University of Colorado, Boulder (2003)
• 🎓 Ph.D. in Structural Engineering – University of Tehran (2001)
• 🎓 M.Sc. in Structural Engineering – Iran University of Science and Technology (1994)
• 🎓 B.Sc. in Civil Engineering – University of Tehran (1991)

👨‍🏫 Academic & Professional Experience:

• 🏛️ Full Professor – University of Tehran (2015–Present)
• 🏗️ Vice President for Engineering Dept. – Pardis Rooz Consultant Engineering (2022–Present)
• ✍️ Associate Editor – Civil Engineering Infrastructures Journal (2020–Present)
• 🎓 Sabbatical Professor – Chalmers University of Technology, Sweden (2019–2020)
• 📖 Former Head of Structural Engineering Dept. – University of Tehran (2015–2019)
• 🔬 Postdoctoral Researcher – University of Colorado, Boulder (2003–2004)
• 🏢 Head of Structural Design – Sazeh Pardazi Iran Consulting Eng. Co. (2004–2022)

Professional Development

Dr. Eskandari-Ghadi has made significant contributions to the field of structural mechanics and engineering 📐. His work in fracture mechanics, wave propagation, and composite materials has led to groundbreaking insights in academia and industry 🔬. As an editor, professor, and consultant, he has played a key role in advancing civil engineering methodologies and structural design principles 🏗️. His leadership in research and teaching, alongside his editorial contributions and consulting experience, reflects his dedication to both theoretical advancements and practical applications in structural engineering 🌍.

Research Focus

Dr. Eskandari-Ghadi specializes in structural mechanics, fracture mechanics, wave propagation, and composite materials 🏗️. His work delves into the behavior of orthotropic and transversely isotropic materials, focusing on stress analysis, structural stability, and advanced computational modeling 🔬. His research has applications in seismic analysis, high-performance construction materials, and infrastructure durability 🌍. With expertise in boundary element methods, elastodynamics, and mechanics of materials, he contributes to innovative engineering solutions and academic advancements 📖. His findings benefit both academia and industry, influencing modern civil engineering designs 🚧.

Awards & Honors

🏆 United Group Research Award – For outstanding research contributions
🏆 Excellence in Teaching Award – Recognized for exceptional academic mentorship
🏆 Best Structural Engineering Paper Award – Acknowledged for groundbreaking research
🏆 Research Fellowship at the University of Tokyo – Prestigious international collaboration
🏆 Outstanding Engineering Consultant Award – For contributions to structural design and engineering

Publication Top Notes

1. A complete solution of the wave equations for transversely isotropic media

   • Journal: Journal of Elasticity (2005)
   • Citations: 182
   • Summary: This paper provides a comprehensive solution to the wave equation for transversely isotropic materials, using advanced mathematical formulations to describe wave behavior in such media.

2. Elastodynamic potential method for transversely isotropic solid

   • Journal: Journal of Engineering Mechanics (2007)
   • Citations: 125
   • Summary: Introduces the elastodynamic potential method, an efficient approach for solving wave propagation problems in transversely isotropic solids, extending traditional elastodynamic solutions.

3. Transversely isotropic elastodynamic solution of a finite layer on an infinite subgrade under surface loads

   • Journal: Soil Dynamics and Earthquake Engineering (2008)
   • Citations: 86
   • Summary: Investigates the dynamic response of a finite transversely isotropic layer resting on an infinite subgrade subjected to surface loads, with applications in geotechnical and earthquake engineering.

4. Forced vertical vibration of rigid circular disc on a transversely isotropic half-space

   • Journal: Journal of Engineering Mechanics (2010)
   • Citations: 72
   • Summary: Analyzes the vertical vibrations of a rigid circular disc in contact with a transversely isotropic half-space, important for understanding soil-structure interaction and foundation mechanics.

5. Time-harmonic response of saturated porous transversely isotropic half-space under surface tractions

   • Journal: Journal of Hydrology (2016)
   • Citations: 53
   • Summary: Examines the time-harmonic response of a saturated porous medium with transverse isotropy, addressing interactions between fluid flow and elastic deformation under applied loads.