Fidancıoğulları, SametYıldız, Ahmet2024-06-042024-06-0420210025-53002195-8572https://doi.org/10.1515/mt-2020-0018https://hdl.handle.net/11452/41714This paper is about the theoretical and experimental characterizations of the torsional vibration behavior of circular and rectangular cross-sectional arc springs. Firstly, the dynamic behaviors of arc springs with different cross-sectional wire profiles designed for a dual mass flywheel are modeled by mathematical formulations. After that, experimental tests are performed to verify these models and it is observed that the stiffness characterizations are in good agreement with experimental results. Lastly, the masses of two different arc springs are compared by regarding the same vibration stiffness criteria and it is demonstrated that the rectangular wire provides an arc spring with a 9.44 vol.-% lighter structure. Thus, the outcomes of this paper can be good references for the manufacturer about the numerical and experimental characterization of dual mass flywheel springs, especially for rectangular wire arc springs.eninfo:eu-repo/semantics/closedAccessDesignOptimizationDual-mass flywheelArc springDynamic characterizationDifferent cross-sectional wiresVibration stiffnessScience & technologyTechnologyMaterials science, characterization & testingMaterials scienceArticle00063679350000211311863210.1515/mt-2020-0018