Parijat Srivastava | Mechanical Engineering | Research Excellence Award

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Dr. Parijat Srivastava | Mechanical Engineering | Research Excellence Award

Dr. Ambedkar Institute of Technology | India

Dr. Parijat Srivastava is a Mechanical Engineering researcher specializing in advanced manufacturing, tribology, biomaterials, and patient-specific orthopedic implant design. He earned his Ph.D. from Harcourt Butler Technical University, Kanpur, following an M.Tech. from Punjab Technical University and a B.Tech. from AKTU. His doctoral research focused on experimental investigation, modeling, and optimization of tribological behavior of bio-composites for customized hip implants, integrating FEM, CFD, and multi-criteria decision-making techniques. Dr. Srivastava has strong expertise in 3D printing (FDM), precision metrology, bio-tribology, reverse engineering, and simulation tools such as ANSYS, nTop, and MIMICS. He has authored multiple peer-reviewed journal articles indexed in SCIE, ESCI, and Scopus, with an established h-index and growing citation profile based on international databases, reflecting the impact of his research outputs. His work has been presented at leading IEEE and international conferences and translated into innovation through numerous granted design patents and a filed utility patent in orthopedic healthcare systems. He is also the Founder and Director of two innovation-driven startups, one of which received the Best Startup in Healthcare Award at AKTU. Currently serving as Guest Faculty, Dr. Srivastava actively bridges academia, industry, and clinical translation, contributing to sustainable, patient-centric engineering solutions.

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Featured Publications

Tribological and Mechanical Testing of Artificial Bio-Bearing Materials Followed by Design and Analysis of Patient-Specific Artificial Hip Joint
P. Srivastava, V.P. Singh, International Journal on Interactive Design and Manufacturing (IJIDeM), 18, 2024.

FEM-Based Designing and Modelling of a Porous Customised Hip Implant Stem Using n-Topology Software
P. Srivastava, V.P. Singh, Australian Journal of Mechanical Engineering, 1–9, 2025.

Hip Prosthesis: Material, Wear and Loading Considerations for Long Life Sustainability
P. Srivastava, V.P. Singh, Biennial International Conference on Future Learning Aspects of Mechanical Engineering (FLAME), 2022.

Ahmed Fouly | Mechanical Engineering | Best Academic Researcher Award

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Assoc. Prof. Dr. Ahmed Fouly | Mechanical Engineering | Best Academic Researcher Award

College of Engineering, King Saud University | Saudi Arabia

Dr. Ahmed Fouly is an accomplished engineer and researcher with a robust interdisciplinary profile: he holds a PhD in Mechatronics and Robotics (2017) from the Egypt–Japan University of Science and Technology, and earlier earned an MSc and BSc in Production Engineering & Mechanical Design from Minia University. Over the years he has progressed through academic ranks to become Associate Professor at King Saud University and concurrently in Minia University. He has published over 90 peer-reviewed articles . 873 citations and a current h-index of 18 as per Google Scholar . His research spans materials science tribology and wear, mechatronics and MEMS, AI modeling, and contact modeling using FEA. His academic experience includes service as course instructor in mechatronics, robotics, control, sensors, mechanical design, and finite element analysis, and supervising numerous projects in biomedical composites and robotics. He has secured competitive research grants (e.g. from King Salman Center, oriented research programs) and won multiple awards including “scientific publication awards” over successive years, best conference paper awards, and institutional recognition for robotics design. In sum, Dr. Fouly is a dynamic scholar fusing engineering, materials, and intelligent systems, with strong publication impact and leadership in emerging interdisciplinary fields.

Profiles : Google Scholar | Scopus | Orcid

Featured Publications

Fouly, A., Ibrahim, A. M. M., Sherif, E. S. M., FathEl-Bab, A. M. R., & Badran, A. H. (2021). Effect of low hydroxyapatite loading fraction on the mechanical and tribological characteristics of poly (methyl methacrylate) nanocomposites for dentures. Polymers, 13(6), 857.

Ahmadian, H., Fouly, A., Zhou, T., Kumar, A. S., Fathy, A., & Weijia, G. (2024). Investigating the valence balance of adding Nano SiC and MWCNTs on the improvement properties of copper composite using mechanical alloying and SPS techniques. Diamond and Related Materials, 145, 111113.

Fouly, A., & Alkalla, M. G. (2020). Effect of low nanosized alumina loading fraction on the physicomechanical and tribological behavior of epoxy. Tribology International, 152, 106550.

Fouly, A., Assaifan, A. K., Alnaser, I. A., Hussein, O. A., & Abdo, H. S. (2022). Evaluating the mechanical and tribological properties of 3D printed polylactic-acid (PLA) green-composite for artificial implant: Hip joint case study. Polymers, 14(23), 5299.

Fouly, A., Abdo, H. S., Seikh, A. H., Alluhydan, K., Alkhammash, H. I., Alnaser, I. A., … (2022). Evaluation of mechanical and tribological properties of corn cob-reinforced epoxy-based composites—theoretical and experimental study.