@ARTICLE{FASSI_Hicham_Fihri_Towards_2023, author={FASSI, Hicham Fihri and ANIYOU, Hadji}, volume={vol. 14}, number={No 4}, journal={Management and Production Engineering Review}, howpublished={online}, year={2023}, publisher={Production Engineering Committee of the Polish Academy of Sciences, Polish Association for Production Management}, abstract={The engine is the most important component of a vehicle. It attaches to the main frame via the engine mounting bracket which supports weight and operating loads. The engine mount therefore plays a crucial role in the durability and comfort of the vehicle. This article contributes to the search for the most optimal model from the point of view of resistance, environmental impact, and manufacturing cost. This involves, on the one hand, optimizing the support by reducing its initial mass by 30%, and on the other hand, seeking suitable material and manufacturing process with the least environmental impact. To this end, topology optimization will be combined with an environmental assessment and a manufacturing cost analysis. Four materials will be tested and evaluated. Finally, a cost analysis will present a comparison between a conventional process and 3D printing.}, title={Towards an Optimal Motor Mounting Bracket Using Topology Optimization Combined with Sustainability and Manufacturing Cost Analysis}, URL={http://ochroma.man.poznan.pl/Content/130049/PDF-MASTER/987_corr.pdf}, doi={10.24425/mper.2023.147208}, keywords={Engine mount, topology optimization, Numerical simulation, Sustainability, manufacturing, Costing analysis}, }