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Prof AHMED SHERIF EL-GIZAWY | Digital Design | Best Innovation Award

Prof AHMED SHERIF EL-GIZAWY , Industrial Technology Development and Management (ITECH D&M) , United States

Ahmed Sherif El-Gizawy, Ph.D., is a distinguished figure in mechanical engineering, renowned for his extensive contributions to digital design and manufacturing, particularly in biomedical and aerospace applications. With a career spanning over three decades, he has led groundbreaking research at the University of Missouri and founded ITech D&M, LLC, dedicated to advancing technological solutions. El-Gizawy’s expertise encompasses process modeling, quality engineering, and additive manufacturing, bolstered by leadership in multidisciplinary research initiatives. A prolific author and educator, he has supervised numerous doctoral candidates and published widely, impacting industries globally. 🌐

Publication Profile

Scopus

Education

Ahmed Sherif El-Gizawy, Ph.D., earned his Bachelor’s and Master’s degrees in Mechanical Engineering from Cairo University, Egypt, in 1972 and 1976 respectively. He later pursued his Doctorate in Mechanical Engineering at the University of Waterloo, Ontario, Canada, graduating in 1983. 🎓 Throughout his academic journey, El-Gizawy’s focus on engineering has laid the foundation for his distinguished career in research, teaching, and technological innovation, particularly in areas like process modeling and additive manufacturing. His educational background underscores his deep commitment to advancing engineering knowledge and practical applications in diverse industrial sectors.

Experience

Ahmed Sherif El-Gizawy, Ph.D., boasts a diverse and illustrious career in academia and industry spanning several decades. Currently serving as President and Chief Technical Officer of ITECH D&M, LLC in Columbia, Missouri since 2009, he also holds positions as Distinguished Adjunct Professor at San Diego State University and has been involved with King Abdulaziz University in Saudi Arabia as both a professor and adjunct faculty member. El-Gizawy’s tenure at the University of Missouri-Columbia, where he served as Director and College Research Professor from 1992 to 2019, underscores his extensive leadership in research and development. His career journey reflects a steadfast commitment to advancing engineering education and innovation globally. 🌍

Research Focus

Ahmed Sherif El-Gizawy, Ph.D., focuses his research on advancing additive manufacturing and predictive modeling in engineering. His work, notably in developing 3D finite element models for processes like Selective Laser Melting (SLM), addresses critical issues such as process-induced defects and thermal deformation. El-Gizawy’s contributions extend to analytical models for optimizing cutting force coefficients and enhancing drilling techniques for titanium alloys. These efforts underscore his commitment to innovation in manufacturing technology, aiming to improve product quality and process efficiency. 🛠️ His interdisciplinary approach bridges theoretical insights with practical applications, driving advancements in materials science and engineering simulation.

Publication Top Notes

 “Variability of human femoral geometry and its implications on nail design.”

Development of a combined analytical and experimental approach for the determination of the cohesive strength between material extrusion layers using the true area of contact.”

“Developing semiautonomous system for robust performance of centrifugal pumping system.”

“Development of 3D finite element model for predicting process-induced defects in additive manufacturing by Selective Laser Melting (SLM).”

“Development of analytical model for predicting dual-phase ejector performance.”

“Development of three-dimensional thermomechanical finite element model for prediction of thermal deformation during selective laser sintering processes.”

“Identification of cutting force coefficients for the linear and nonlinear force models in end milling process using average forces and optimization technique methods.”

“Optimization of Multiple Quality Characteristics for Dry Drilling Ti-6Al-4V Using TiAlN-Coated Carbide Tool.”

“A simple locking-alleviated 3D 8-node mixed-collocation C0 finite element with over-integration, for functionally-graded and laminated thick-section plates and shells, with & without z-pins.”

“A simple locking-alleviated 4-node mixed-collocation finite element with over-integration, for homogeneous or functionally-graded or thick-section laminated composite beams.”

AHMED SHERIF EL-GIZAWY | Digital Design | Best Innovation Award

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