Design optimization of a well-known geometry for minimum weight utilizing the Density-Shape-Element Removal method (D-S-ER)

¹ Department of Mechanical Engineering, Haliç University, Istanbul 34060, Turkiye
² Department of Mechanical Engineering, Bursa Technical University, Bursa 16310, Turkiye

^* Corresponding author: ibrahimtekeiu@gmail.com

Abstract

The development of topology optimization (TO) methods gives designers new capabilities. A variety of TO techniques have recently been used in special circumstances to expand the capabilities of generalist techniques on particular niche issues. To achieve more flexible solutions and generalized procedures for most of the problems, hybrid methods are in trend. Hence, in this study, a different application of the Density-Shape-Element Removal method (D-S-ER) has been used to reduce maximum stress while also significantly reducing the weight of the structure, a lifting hook. A raw model was taken into consideration for the procedure. The study's findings show that the suggested strategy can be employed to provide quick and effective solutions by means of optimizing the balance between weight and strength. One of the findings depicts that combining different methods could give flexibility even in well-proven geometry optimization, which is the lifting hook in this study.