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 ποΈ. With dual Ph.D.s in Structural Mechanics from the University of Colorado, Boulder (2003) and Structural Engineering from the University of Tehran (2001) π, his expertise spans fracture mechanics, composite materials, and wave propagation π. 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 πΈπͺ. His extensive research and teaching contributions make him a leader in civil and structural engineering ποΈ.
Professional Profile
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Education & Experience
π Education:
- π Ph.D. in Structural Mechanics β University of Colorado, Boulder (2003)
- π Ph.D. in Structural Engineering β University of Tehran (2001)
- π M.Sc. in Structural Engineering β Iran University of Science and Technology (1994)
- π B.Sc. in Civil Engineering β University of Tehran (1991)
π¨βπ« Academic & Professional Experience:
- ποΈ Full Professor β University of Tehran (2015βPresent)
- ποΈ Vice President for Engineering Dept. β Pardis Rooz Consultant Engineering (2022βPresent)
- βοΈ Associate Editor β Civil Engineering Infrastructures Journal (2020βPresent)
- π Sabbatical Professor β Chalmers University of Technology, Sweden (2019β2020)
- π Former Head of Structural Engineering Dept. β University of Tehran (2015β2019)
- π¬ Postdoctoral Researcher β University of Colorado, Boulder (2003β2004)
- π’ Head of Structural Design β Sazeh Pardazi Iran Consulting Eng. Co. (2004β2022)
Professional Development
Dr. Eskandari-Ghadi has made significant contributions to the field of structural mechanics and engineering π. His work in fracture mechanics, wave propagation, and composite materials has led to groundbreaking insights in academia and industry π¬. As an editor, professor, and consultant, he has played a key role in advancing civil engineering methodologies and structural design principles ποΈ. 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 π.
Research Focus
Dr. Eskandari-Ghadi specializes in structural mechanics, fracture mechanics, wave propagation, and composite materials ποΈ. His work delves into the behavior of orthotropic and transversely isotropic materials, focusing on stress analysis, structural stability, and advanced computational modeling π¬. His research has applications in seismic analysis, high-performance construction materials, and infrastructure durability π. With expertise in boundary element methods, elastodynamics, and mechanics of materials, he contributes to innovative engineering solutions and academic advancements π. His findings benefit both academia and industry, influencing modern civil engineering designs π§.
Awards & Honors
π United Group Research Award β For outstanding research contributions
π Excellence in Teaching Award β Recognized for exceptional academic mentorship
π Best Structural Engineering Paper Award β Acknowledged for groundbreaking research
π Research Fellowship at the University of Tokyo β Prestigious international collaboration
π Outstanding Engineering Consultant Award β For contributions to structural design and engineering
Publication Top Notes
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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.
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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.
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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.
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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.
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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.