Comparison of Disc Brake Squeal between Ordinary and Drilled Brake Discs Using Finite Element Method
2
Issued Date
2024-06-03
Resource Type
ISSN
22292152
eISSN
2697424X
Scopus ID
2-s2.0-85199809422
Journal Title
Journal of Research and Applications in Mechanical Engineering
Volume
12
Issue
2
Rights Holder(s)
SCOPUS
Bibliographic Citation
Journal of Research and Applications in Mechanical Engineering Vol.12 No.2 (2024)
Suggested Citation
Sodsong A., Suphawimol C., Kittipichai R. Comparison of Disc Brake Squeal between Ordinary and Drilled Brake Discs Using Finite Element Method. Journal of Research and Applications in Mechanical Engineering Vol.12 No.2 (2024). doi:10.14456/jrame.2024.17 Retrieved from: https://repository.li.mahidol.ac.th/handle/123456789/100205
Title
Comparison of Disc Brake Squeal between Ordinary and Drilled Brake Discs Using Finite Element Method
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Author's Affiliation
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Abstract
During the braking of the automobile, the brake squeal is a direct concern for the driver. Sometimes, the automaker loses revenue from the customer's warranty claims. The automaker needs to solve or alleviate the squealing noise during the brake action. The study aimed to compare the disc brake squeal of general and drilled brake discs. The disc brake squeal is an instability of the disc brake system. One popular theory used in the analysis is Complex Eigenvalue Analysis and simulation using Finite Element Technique. In this work, three models of brake discs were compared: an ordinary brake disc and two drilled brake discs. For drilled brake discs, the first and second models had 30 and 60 holes on the disc, respectively. The study revealed that a more stiffness structure generates higher frequencies than a flexible structure. Each model generated a different amount of unstable frequency modes.