Weight Optimization of Leaf Spring for Automotive Vehicle using Finite Element Modeling

https://doi.org/10.22214/ijraset.2020.32179

November 2020

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Weight Optimization of Leaf Spring for Automotive Vehicle using Finite Element Modeling

Published on Nov 23, 2020

The weight reduction has been the main focus of automobile manufacturers in the present scenario. The weight reduction can be achieved primarily by the introduction of better material, design optimization and better manufacturing processes. The suspension leaf spring is one of the potential items for weight reduction in automobiles as it accounts for 10% 20%of the un spring weight. This achieves the vehicle more fuel efficiency and improved riding qualities. The leaf spring should absorb the vertical vibrations and impacts due to road irregularities by means of variations in the spring deflection so that the potential Energy is stored in spring as strain energy and then released slowly. So, increasing the energy storage capability of a leaf spring ensures a more compliant suspension system. In the present work, a steel leaf spring was replaced by a composite leaf spring due to high strength to weight ratio for the same load carrying capacity and stiffness with same dimension as that of steel leaf spring.

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