Analysis of Connecting Rod for Static Stress and Deformation for Different Materials


Authors : Sourabh Mishra; Ruchika Saini; U. K. Joshi

Volume/Issue : Volume 8 - 2023, Issue 9 - September

Google Scholar : https://bit.ly/3TmGbDi

Scribd : https://tinyurl.com/4c83ckxu

DOI : https://doi.org/10.5281/zenodo.8370051

Abstract : In the ever-evolving field of automotive engineering, the connecting rod assumes a pivotal role in the seamless transformation of reciprocating piston motion into the rotary motion that propels an engine's crankshaft. Traditionally crafted from carbon steel, recent strides in materials science have unveiled the potential of aluminium alloys as a compelling alternative. These alloys, lauded for their lightweight attributes and remarkable impact resistance, particularly excel in the demanding realm of high-speed motorcycle engines.Our investigation meticulously assesses crucial parameters including von Mises stress, Equivalent Elastic Strain and total Deformation.

Keywords : ANSYS Workbench 2022 R1, Connecting Rod, SolidWorks 2021, Deformation Analysis, Static Structural Analysis, Stiffness, Aluminium Alloy.

In the ever-evolving field of automotive engineering, the connecting rod assumes a pivotal role in the seamless transformation of reciprocating piston motion into the rotary motion that propels an engine's crankshaft. Traditionally crafted from carbon steel, recent strides in materials science have unveiled the potential of aluminium alloys as a compelling alternative. These alloys, lauded for their lightweight attributes and remarkable impact resistance, particularly excel in the demanding realm of high-speed motorcycle engines.Our investigation meticulously assesses crucial parameters including von Mises stress, Equivalent Elastic Strain and total Deformation.

Keywords : ANSYS Workbench 2022 R1, Connecting Rod, SolidWorks 2021, Deformation Analysis, Static Structural Analysis, Stiffness, Aluminium Alloy.

Never miss an update from Papermashup

Get notified about the latest tutorials and downloads.

Subscribe by Email

Get alerts directly into your inbox after each post and stay updated.
Subscribe
OR

Subscribe by RSS

Add our RSS to your feedreader to get regular updates from us.
Subscribe