Explicit analysis of heavy vehicle chassis structure for the effect of frequency response

  • Authors

    • Ramesh kumar.S
    • Raja sankar.M
    • Harish V
    • Arun kumar.K
    • Gokulakrishnan T
    • Madan M
    2018-03-19
    https://doi.org/10.14419/ijet.v7i2.8.10428
  • Chassis, Finite Element Technique, ANSYS Work Bench 15.0, geometry, scientific, mode shape.
  • Abstract

    The current circumstance in industry is an entire looked for after of trucks on the cost and weight points and in addition too on upgraded total vehicle features and general work execution. The case accept a key part in the layout of any truck. Truck suspension outlines the helper spine of a business vehicle. The essential limit of the truck case is to enable the parts and payload to set upon it. Exactly when the truck comes the road, the body is subjected to vibration prompted by road offensiveness and excitation by vibrating parts mounted on it. The responses of the truck body which fuse the weight allocation and movement under various stacking condition are furthermore viewed. The mode shape occurs choose the sensible mounting zones of portions like engine and suspension system. A couple of changes are moreover proposed to decrease the vibration and to upgrade the nature of the truck frame. The skeleton design when all is said in done is a baffling methodology and to reach at an answer which yields a good execution is a horrid endeavor. Since the suspension has an unusual geometry and stacking outlines, there is no inside and out portrayed investigative technique to separate the case. So the numerical course of examination is grasped, in which Finite Element Technique is most by and large used course.

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  • How to Cite

    kumar.S, R., sankar.M, R., V, H., kumar.K, A., T, G., & M, M. (2018). Explicit analysis of heavy vehicle chassis structure for the effect of frequency response. International Journal of Engineering & Technology, 7(2.8), 298-302. https://doi.org/10.14419/ijet.v7i2.8.10428

    Received date: 2018-03-21

    Accepted date: 2018-03-21

    Published date: 2018-03-19