Elsayed Abo-Dahab | Continuum Mechanics | Best Researcher Award

Continuum Mechanics at South Valley University

A distinguished academic in the field of Applied Mathematics, El-Sayed Mohamed Abo-Dahab Khedary is a leading figure in continuum mechanics. His extensive work spans elasticity, thermoelasticity, fluid mechanics, and magnetic field effects in fibre-reinforced materials. He has contributed significantly to science through his prolific publishing record, with more than 265 scientific articles across disciplines such as engineering, physics, biology, geology, acoustics, and plasma studies. His academic influence is reinforced by his position as a reviewer for over 150 international journals, and his work is widely cited, making him a respected authority in solid mechanics and mathematical modeling.

Professional Profile

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Education

Academic progression includes a Master's degree in Applied Mathematics in 2001 and a PhD in 2005, both earned from reputable Egyptian universities. This foundational expertise led to further academic recognition, including the title of Assistant Professor in 2012 and full Professor in 2017. In 2020, he achieved a Doctor of Science (DSc.) degree in Physics and Mathematics, a distinction that underlines his contribution to theoretical and applied sciences. These academic milestones have been crucial in shaping a career grounded in mathematical rigor and interdisciplinary research excellence.

Professional Experience

El-Sayed Mohamed Abo-Dahab Khedary currently serves as a Professor in Applied Mathematics with a specialization in continuum mechanics. His professional experience reflects a steady academic progression, culminating in a prominent role that bridges research and mentorship. His contributions extend beyond teaching, involving leadership in various scientific endeavors and collaboration across international research communities. As an expert reviewer for numerous high-impact journals, he plays a key role in maintaining scholarly standards in applied mathematics and mechanics. His dedication to the field is demonstrated through decades of sustained engagement in both theoretical advancements and practical applications.

Research Interest

Research interests lie at the intersection of mathematics and physical sciences, with a focus on elasticity, thermoelasticity, fluid mechanics, and magnetic field interactions in fibre-reinforced materials. This interdisciplinary orientation supports applications in engineering, biology, plasma physics, and beyond. His work contributes to the understanding of how complex systems behave under various physical influences, a foundation for innovations in materials science and mechanical analysis. His engagement with emerging scientific problems positions him as a thought leader in applied mathematics, with a commitment to advancing both theory and real-world problem-solving.

Award And Honor

Recognition for his academic excellence includes numerous local and international awards in science and technology. These honors acknowledge his groundbreaking contributions to applied mathematics and his impact on various scientific domains. His reputation is further solidified by frequent invitations to review for over 150 international journals, underscoring the trust the academic community places in his judgment. Additionally, citations of his work in prominent research papers and textbooks highlight his influence on contemporary scientific thought. These accolades collectively illustrate a career marked by scholarly distinction and ongoing innovation.

Research Skill

Research capabilities are centered around continuum mechanics, including elasticity, fluid flow, and magnetic field interactions with complex materials. His technical expertise allows for modeling intricate systems, particularly those involving thermoelastic and fiber-reinforced materials. With strong analytical and computational skills, he designs and interprets advanced mathematical models applicable to various scientific and engineering problems. His adaptability across disciplines—spanning physics, geology, biology, and acoustics—demonstrates a unique ability to translate mathematical theory into practical insights. He is also proficient in scientific writing, peer reviewing, and cross-disciplinary collaboration, reinforcing his standing as a research leader.

Publications

An accomplished author, he has published over 265 scientific papers in peer-reviewed journals covering a wide array of disciplines, including engineering, mathematics, physics, biology, acoustics, and plasma science. His publications address both theoretical frameworks and applied research, reflecting his broad intellectual reach and analytical depth. He is also the author of several books in mathematics, offering valuable resources to students and professionals alike. His work is well-cited, demonstrating its relevance and utility across multiple fields. This rich body of research represents a career committed to expanding the boundaries of applied mathematics.

Title: MHD Casson nanofluid flow over nonlinearly heated porous medium in presence of extending surface effect with suction/injection
Authors: SM Abo-Dahab, MA Abdelhafez, F Mebarek-Oudina, SM Bilal
Journal: Indian Journal of Physics, 95 (12), 2703–2717

Title: Influence of chemical reaction and thermal radiation on the heat and mass transfer in MHD micropolar flow over a vertical moving porous plate in a porous medium with heat
Authors: RA Mohamed, SM Abo-Dahab
Journal: International Journal of Thermal Sciences, 48 (9), 1800–1813

Title: Influence of MWCNT/Fe₃O₄ hybrid nanoparticles on an exponentially porous shrinking sheet with chemical reaction and slip boundary conditions
Authors: K Swain, F Mebarek-Oudina, SM Abo-Dahab
Journal: Journal of Thermal Analysis and Calorimetry, 147 (2), 1561–1570

Title: Finite element analysis of hydromagnetic flow and heat transfer of a heat generation fluid over a surface embedded in a non-Darcian porous medium in the presence of chemical
Authors: RA Mohamed, IA Abbas, SM Abo-Dahab
Journal: Communications in Nonlinear Science and Numerical Simulation, 14 (4), 1385–1395

Title: Generalized thermoelastic functionally graded on a thin slim strip non-Gaussian laser beam
Authors: SM Abo-Dahab, AE Abouelregal, M Marin
Journal: Symmetry, 12 (7), 1094

Title: Two-temperature plane strain problem in a semiconducting medium under photothermal theory
Authors: SM Abo-Dahab, K Lotfy
Journal: Waves in Random and Complex Media, 27 (1), 67–91

Title: Effect of rotation on peristaltic flow of a micropolar fluid through a porous medium with an external magnetic field
Authors: AM Abd-Alla, SM Abo-Dahab, RD Al-Simery
Journal: Journal of Magnetism and Magnetic Materials, 348, 33–43

Title: Two-dimensional problem of two temperature generalized thermoelasticity with normal mode analysis under thermal shock problem
Authors: K Lotfy, SM Abo-Dahab
Journal: Journal of Computational and Theoretical Nanoscience, 12 (8), 1709–1719

Conclusion

El-Sayed Mohamed Abo-Dahab Khedary exemplifies academic excellence in applied mathematics with a focus on real-world impact. His research spans critical scientific domains, his publications are widely cited, and his contributions have earned significant recognition. Through teaching, research, and international collaboration, he has advanced the fields of continuum mechanics and applied mathematics. His dedication to interdisciplinary inquiry and scientific integrity has established him as a thought leader and mentor. The depth and diversity of his career reflect not only expertise but also a long-standing commitment to knowledge creation and dissemination.