Prof. Dr. Emad Solouma | Computational Mechanics | Best Researcher Award

Published on by Superior Awards

Prof. Dr. Emad Solouma | Computational Mechanics | Best Researcher Award

Prof. Dr. Emad Solouma | Imam Mohammad Ibn Saud Islamic University | Saudi Arabia

Prof. Dr. Emad Mohamed Solouma is an accomplished researcher whose work focuses on advanced studies in differential geometry, kinematic surfaces, and applied mathematics. His scholarly contributions explore geometric modeling, scalar curvature, and the properties of curves and surfaces within Euclidean and Minkowski spaces.With 96 citations by 75 documents, 32 scientific publications, and an h-index of 5, his academic influence continues to grow across the global research community . He has published extensively in reputed international journals such as Applied Mathematics, Journal of Geometry, and International Journal of Applied and Computational Mathematics, addressing topics like constant scalar curvature, cyclic and tubular surfaces, and fractional variational problems. His research also delves into the geometric behavior of surfaces generated by equiform and homothetic motions, as well as analytical techniques for solving fractional differential equations. Prof. Solouma’s investigations provide mathematical frameworks for understanding higher-dimensional kinematic surfaces and their curvature characteristics, contributing to the theoretical foundations of geometry and its computational applications. His consistent output of high-quality publications and conference presentations underscores his role in advancing mathematical theory and its interdisciplinary applications in modern geometry and computational modeling.

Profile: Orcid | Scopus

Featured Publications

Solouma, E., Saber, S., & Baskonus, H. M. (2025, July). Exploring harmonic evolute geometries derived from tubular surfaces in Minkowski 3-space using the RM Darboux frame. Mathematics, 13(15), 2329.

Ragheb, N. M., Solouma, E., Alahmari, A. A., & Saber, S. (2025, July). Reliability and availability analysis of a two-unit cold standby system with imperfect switching. Axioms, 14(8), 589.

Saber, S., Solouma, E., Althubyani, M., & Messaoudi, M. (2025, May). Statistical insights into zoonotic disease dynamics: Simulation and control strategy evaluation. Symmetry, 17(5), 733.

Saber, S., & Solouma, E. (2025, April). The generalized Euler method for analyzing zoonotic disease dynamics in baboon–human populations. Symmetry, 17(4), 541.

Solouma, E., Al-Dayel, I., & Abdelkawy, M. A. (2025, March). Ruled surfaces and their geometric invariants via the orthogonal modified frame in Minkowski 3-space. Mathematics, 13(6), 940.

Saber, S., Solouma, E., Alharb, R. A., & Alalyani, A. (2025, February). Chaos in fractional-order glucose–insulin models with variable derivatives: Insights from the Laplace–Adomian decomposition method and generalized Euler techniques. Fractal and Fractional, 9(3), 149.

 

 

Assist. Prof. Dr Andrei Pilipchuk | Computational Mechanics | Best Researcher Award

Published on by Superior Awards

Assist. Prof. Dr Andrei Pilipchuk | Computational Mechanics | Best Researcher Award

Assist. Prof. Dr Andrei Pilipchuk | Belarusian National Technical University | Belarus

Assist. Prof. Dr Andrei Pilipchuk research focuses on the interaction of laser radiation with solid materials, emphasizing the mechanisms of stress formation and material response during laser processing. His work involves solving complex problems related to internal stress determination under laser irradiation and developing analytical and computational models to optimize technological processes. Through studies on stresses in laser processing, crack formation after laser treatment of thermal spray coatings, and the behavior of surface layers under pulsed laser irradiation, he has contributed to a deeper understanding of residual stress distribution and its impact on material performance. His research on calculation schemes for laser processing and the analysis of stress fields in components such as blades used in descaling after laser hardening has helped establish methods for predicting and minimizing structural damage. By integrating theoretical modeling with practical laser applications, his work supports advancements in laser manufacturing, materials engineering, and the broader field of industrial surface modification. His research contributions have been recognized through 34 citations from 17 documents and an h-index of 2, reflecting the growing impact of his work in the field of laser-material interaction.

Profile: Google Scholar | Orcid

Featured Publications

Pilipchuk, A. P., Devoyno, O. G., & Zharskiy, V. V. (2019). Modeling of surface hardening using a scanning fiber laser. Izvestiya of the National Academy of Sciences of Belarus, Series of Physical and Technical Sciences, 9 citations.

Devoyno, O. G., Pilipchuk, A. P., & Kocherov, A. L. (2014). Evaluation of the stress state during laser processing of gas-thermal coatings. Belarusian National Technical University (BNTU), 3 citations.

Devoyno, O. G., Volodko, A. S., Pilipchuk, A. P., Devoyno, D. G., & Mishin, A. A. (2020). Formation of multilayer coatings of ultra-high molecular weight polyethylene on para-aramid fabrics by flame spraying. Belarusian National Technical University (BNTU), 2 citations.

Devoyno, O. G., Pilipchuk, A. P., & Lochs, S. (2019). Formation of functionally graded coatings by combined gas-thermal spraying and laser processing. Topical Issues of Mechanical Engineering, 8, 277–282. 2 citations.

Devoyno, O. G., Zharskiy, V. V., Pilipchuk, A. P., & Rudyy, V. V. (2019). Hardening of large-sized parts using scanning fiber laser radiation with programmable power variation. Photonics, 13(6), 524–531. 2 citations.

Pilipchuk, A. P., Devoyno, O. G., Gribkov, Y. A., Lutsko, N. I., & Romanov, D. A. (2016). Use of self-fluxing alloys for creating parts by selective laser sintering. Bulletin of the Military Academy of the Republic of Belarus, 165–173. 2 citations.

Devoyno, O. G., Zharskiy, V. V., Kardapolova, M. A., Lutsko, N. I., & Pilipchuk, A. P. (2016). Study of the surface formation process by selective laser sintering from PG-SR3 alloy. Proceedings of the Conference “Modern Methods and Technologies for Creating and Processing Materials”, 2 citations.