A Review on the Design and Analysis of Vehicle Suspension System


  • Rashmi Paliwal
  • Rahul Shrivastava




Global Warming, Suspension System, Automobiles, Vehicle Suspension System.


In automobiles, a double-wishbone suspension is an independent suspension structure that uses two wishbones to support the wheel and the maximum load is transferred from the upper wishbone to the lower one, which can lead to failure and deflection of the triangle wheel inferior. The developed lower triangle consists of three holes at one end which are attached to the wheel hub, and the other end is connected to the frame, which is placed between the steering arms. This article introduces the vehicle's engine and suspension system, as well as the description of global warming and the effects of global warming.


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Author Biographies

Rashmi Paliwal

M Tech. Scholar

Oriental Institute of Technology

Bhopal, Madhya Pradesh, India

Rahul Shrivastava

Assistant Professor

Oriental Institute of Technology

Bhopal, Madhya Pradesh, India


V.K.Aher, R.A.Gujar, Sonawane , “Fatigue Life Prediction of Multi Leaf Spring used in the Suspension System of Light Commercial Vehicle”, IJTARM international journal on theoretical and applied research in mechanical engineering 2012; vol.1 issue1: pp.71-77

B.Kaiser, and C. Berger, “Behavior of helical compression springs made of different materials”, IJF international journal of fatigue 2014;vol.2 issue 1:pp.101-109.

Manoj A. Kumbhalkar, Dr. A.V. Vanalkar, “Material and Stress Analysis of Railroad Vehicle Suspension: A Failure Investigation” Procedia Materials Science 2015,vol.10: pp.331-343. DOI: https://doi.org/10.1016/j.mspro.2015.06.064

Tausif M. Mulla, and Vaibhav S. Kengar, “Finite element analysis of helical coil compression spring for three wheeler automotive front suspension”, IJMIE International Journal of Mechanical and Industrial Engineering 2012; vol.2,issue 3,pp74-77.

Gaikwad, S.S., P.S., “Static Analysis of Helical Compression Spring Used in Two-Wheeler Horn”, IJEAT 2013; vol.2, issue 3:pp.161-165.

VK. Aher and PM. Sonawane, “Static and Fatigue analysis of Multi Leaf Spring used in the Suspension System of LCV”,International Journal of Engineering Research and Applications; vol2,vol.4: 1786-1791, 2012.

K Ray, Brita Pyttel, Abhishek Tiwari, “Investigation of probable failure position in helical compression springs used in fuel injection system of diesel engines”, JMCE Journal of Mechanical and Civil Engineering 2012; vol.2, issue 3,pp24-29, 2012. DOI: https://doi.org/10.9790/1684-0232429

Christianah O.Ijagbem, Bankole I.Oladapo “Design and simulation of fatigue analysis for a vehicle suspension system and its effect on global warming”, Humanitarian Technology: Science, Systems and Global Impact, HumTech2016, 7-9 2016, USA.

Olugbenga Moses Anubi and Carl Crane, “A New Semi active Variable Stiffness Suspension System Using Combined Skyhook and Nonlinear Energy Sink-Based Controllers” IEEE transactions on control systems technology, Aug 26, Pp.1-11, 2014.

T.A. Jadhav, A.N.Mudalgikar “Stress Reduction of Cross Member of Rear Axle for Car” Volume. 8 Issue8, Aug.2019

Vinod Sheshkar, Yogesh Yadav “Finiteelement analysis of Mono leaf spring by using Hybrid composite Material” Vol. 05 Issue07 July2018

Samuel O. Afolabi, Oladapo “Design and finite element analysis of a fatigue life prediction for safe and economical machine shaft” Volume8. Issue 1. Pp 105-111(January - March 2019). DOI: https://doi.org/10.1016/j.jmrt.2017.10.007

Vi.Kie Soo, PaulCompston, PaulCompston “Interaction between New Car Design and Recycling Impact on Life Cycle Assessment” DOI: 10.1016/j.procir.2015.02.055,2015. DOI: https://doi.org/10.1016/j.procir.2015.02.055




How to Cite

Paliwal, R. ., & Shrivastava, R. . (2021). A Review on the Design and Analysis of Vehicle Suspension System . SMART MOVES JOURNAL IJOSCIENCE, 7(7). https://doi.org/10.24113/ijoscience.v7i7.415