BibTeX:

@article{IJIRSTV3I2078,
     title={Vibrational Analysis of Bicycle Chassis},
     author={Rahul J. Pawar and Dr. Kishor P. Kolhe},
     journal={International Journal for Innovative Research in Science & Technology},
     volume={3},
     number={2},
     pages={136--148},
     year={},
     url={http://www.ijirst.org/articles/IJIRSTV3I2078.pdf},
     publisher={IJIRST (International Journal for Innovative Research in Science & Technology)},
}

It is important to recognize that the design of any machine is an interdisciplinary process, involving aerodynamics, thermodynamics, fluid dynamics, stress analysis, vibration analysis, the selection of materials, and the requirements for manufacturing. The operation of any mechanical system will always produce some vibration. Our goal is to minimize the effect of these vibrations, because while it is undesirable, vibration is unavoidable. The result of excess vibration can vary from nuisance disturbance to a catastrophic failure. Bicycle chassis is a major component in a system. This work involves vibration analysis to determine the key characteristics of a bicycle chassis. The dynamic characteristics of bicycle chassis such as the natural frequency and mode shape were determined by using finite element (FE) method. Al material will replace the conventional MS material. Experimental modal analysis was carried out to validate the FE models. Predicted natural frequency and mode shape were validated against the experimental results. Finally, the modification of the updated FE bicycle chassis model was proposed to reduce the vibration, improve the strength and optimize the weight of the bicycle chassis. Tools used are catiaV5 for 3D modelling, Hypermesh for meshing, and Ansys for post processing.

Bicycle Frame, Weight Optimization, Design of Frame, Alternate Material