SCHOOL OF MECHANICAL ENGINEERING SEMINAR
Monday January 8.1.2024 at 14:00

Wolfson Building of Mechanical Engineering, Room 206

Model-based method for Planning and Control in Hybrid Domains

Ameer Marzok

Postdoctoral Researcher | The Department of Civil Engineering and Engineering Mechanics

Columbia University

Abstract: Thin-walled structures find applications in various disciplines, including aerospace, civil, and mechanical engineering, thanks to their high stiffness-to-mass ratio. Recent advancements in manufacturing processes, which enable the production of structural elements with complex geometries, have made topology optimization an integral part of the design process. The intricate cross-sections of thin-walled beams result in complex deformation modes that are not adequately captured by traditional beam theories, especially when torsional behavior is expected. In addition, these elements are prone to buckling due to their slenderness. In this presentation, we will discuss a recently developed efficient topology optimization method for designing these elements. The method relies on a density-based approach that is solved iteratively using an efficient gradient-based optimization framework, allowing for a large number of design variables. The optimization problem is formulated considering linearized buckling, stiffness, and stress constraints. The solution procedure of the optimization problem involves a large number of analyses of different designs, making traditional 3D FEM formulations impractical for such a problem. Therefore, we have developed a novel method for the analysis of these elements consisting of a 3D finite element mesh enhanced with global enrichment functions, utilizing the XFEM method. These global enrichment functions incorporate physical knowledge about the expected behavior of the beam, allowing for a substantial reduction in the computational burden. The results demonstrate that the proposed approach allows designing these elements while considering various performance constraints.

Bio: Ameer Marzok earned his BSc, MSc, and PhD degrees in Civil Engineering from the Technion-Israel Institute of Technology. After completing his doctoral studies, he moved to Columbia University in 2022 to work as a postdoctoral research scientist. Since his PhD, Ameer has been actively engaged in various areas of computational solid mechanics, including structural optimization, the eXtended Finite Element Method, Mixed formulations, Cohesive Zone Models and Phase Field. His current research is primarily focused on the analysis and topology optimization of thin-walled elements.

הנכם מוזמנים להרצאה של פרופ' יורם שפירא בנושא : " רוב מהומה על לא מאומה" - טבע וריק"

שתתקיים ב-28/12/2023 בשעה 11:00 באולם 011, בניין כיתות.

You are invited to Prof. Yoram Shapira's lecture on the topic: " Much Ado About Nothing - Nature and Vacuum”

which will be held on 28/12/2023 at 11:00 in Room 011, Classroom Building