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Biography
Dr. Ahmad E. Eladawi is an Assistant Professor in the Department of Mechanical Engineering at Benha University, Banha, Egypt . He earned his Doctor of Engineering and has been an active academic at Benha University, with a teaching and research career spanning over a decade. His OrcID (0000‑0003‑0063‑5973) underscores a sustained scholarly presence.
Dr. Eladawi’s expertise lies at the intersection of mechanical engineering, materials science, computer vision, and image processing. His research spans advanced machining technologies, composite material behavior under mechanical loads, and intelligent manufacturing systems . He has authored or co-authored over 15 peer-reviewed publications, accumulating more than 130 citations and over 9,000 scholarly reads via platforms such as ResearchGate.
A notable contribution is his 2024 IgMin Research article, “The Effect of Stacking Sequence and Ply Orientation with Central Hole on Tensile Behavior of Glass Fiber‑polyester Composite,” which examines how fiber orientation, laminates, and geometric discontinuities influence tensile strength—leveraging experimental and finite‑element analysis—garnering significant readership . This work earned him a certificate of publication from IgMin Research in July 2024
Earlier in his career, Dr. Eladawi investigated CNC machining conditions and image texture analysis to optimize cutting performance and maintenance effectiveness in manufacturing. He has also authored technical textbooks like Computerized Numerical Control (CNC) Technology and Advanced Machining Technology, both published in 2020, which contribute to engineering education
Committed to integrating computational intelligence in mechanical design and materials systems, Dr. Eladawi continues to explore novel methodologies in smart manufacturing, composite mechanics, and machine vision for industrial applications.
Research Interest
Dr. Ahmad E. Eladawi’s research interests lie at the intersection of mechanical design, advanced manufacturing, and intelligent engineering systems. He focuses extensively on composite materials, particularly investigating their mechanical behavior under various load conditions using experimental methods and finite element analysis (FEA). His work on glass fiber-polyester laminates, including the impact of ply orientation and structural discontinuities, aims to enhance material performance for industrial applications. Dr. Eladawi is also deeply engaged in computer-aided manufacturing, CNC machining optimization, and the development of smart maintenance strategies using image processing and machine vision techniques. His research integrates computational modeling with practical manufacturing challenges to support sustainable production, precision engineering, and design automation. Additionally, he explores texture analysis in images to assess surface integrity in machined components. His interdisciplinary approach advances innovations in smart manufacturing, materials science, and mechanical system diagnostics, contributing to the next generation of intelligent mechanical engineering solutions.
Open Access Policy refers to a set of principles and guidelines aimed at providing unrestricted access to scholarly research and literature. It promotes the free availability and unrestricted use of research outputs, enabling researchers, students, and the general public to access, read, download, and distribute scholarly articles without financial or legal barriers. In this response, I will provide you with an overview of the history and latest resolutions related to Open Access Policy.
An experimental investigation was carried out to study the effect of circular cross-holes on the failure behavior of unidirectional glass fiber reinforced with unsaturated polyester resin composites, varying cross-ply laminates that were subjected to axial tensile load. This paper deals with the effects of the circular notch and the number of plies on nominal tensile and net tensile strengths. Tensile strengths were investigated for composites with cross-ply([0/90]. [90°/0°/90°] and [0°/90°/0°].90°), orientation and ...varying the laminate layers with a central hole, and effects of volume fraction and number of ply on mechanical properties for un-notched (smooth) and notched specimens were also studied. The results showed that increasing the number of plies has a marginal effect on tensile strength values. The fraction of volume has significant effects and for increasing the number of plies about 9% decreases in nominal tensile strength and about 11% decrease in the net tensile strength was observed. The same results were obtained with finite element analysis.
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