Electric vehicle mechanical design, manufacturing and analysis application

Year 2022, Volume: 11 Issue: 1, 38 - 44, 01.05.2022

Abdullah Engin Özçelik Hakan Terzioğlu İrem Sena Kök Ömer Cem Gökdoğan Cüneyd Yavaşoğlu Mehmet Özgün Kurt Ayberk Halıcı Janset Altan Muhammet Kahyaoğlu Serhat Çetin

https://doi.org/10.18245/ijaet.1054509

Abstract

Today, energy is derived from a very large percentage of fossil-based sources, such as 80-85% worldwide. However, it is not sustainable that the use of fossil-based resources pollutes the environment, causes climate change, runs out of reserves and lacks price stability. The most important measure against climate change that poses a threat to the world is to reduce the share of fossil-based resources in energy supply.
In this context, in order to encourage universities in our country to design and manufacture electric vehicles and equipment, TUBITAK organizes competitions for universities and high schools under the name electromobile every year. In this study, TUBITAK Electromobile Battery was designed and manufactured by designing a unique electric vehicle to compete in the Electric Powered Vehicle category. After the mechanical designs of this vehicle we produced were made, the chassis and shell production was carried out by analyzing. After the mechanical designs of this vehicle we produced were made in the Solidworks program, the ANSYS 2019 R3 program was used for the analysis, and the chassis and shell were produced.

Keywords

Electric vehicle, mechanical design, chassis, analysis

Project Number

21301003

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