COMPARATIVE STUDY OF HARMONIC RESPONSE OF DEEP GROOVE BALL BEARING 6206 WITH TWO AND THREE SURFACE-DEFECTS

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Shivam S. Dingane; Swagat S. Kinikar; Avdhut J. Gujar

COMPARATIVE STUDY OF HARMONIC RESPONSE OF DEEP GROOVE BALL BEARING 6206 WITH TWO AND THREE SURFACE-DEFECTS

Authors: Shivam S. Dingane, Swagat S. Kinikar, Avdhut J. Gujar

Unique Paper ID: 168165
Volume: 11
Issue: 5
PageNo: 147-156

Keywords: Deep Grove Ball Bearings; Finite Element Technique; Modal Analysis; Harmonic Analysis.

Abstract:
Vibration is one of the major parameters to consider in Monitoring health of rotating system. If an undetected fault is remains in the rotating system, it may result in break-down, huge damage, physical injury, or even cause death, therefore early fault identification is a critical factor in ensuring and extending the working life of the rotating systems. Bearings are the most critical components of any rotating system. Various sorts of vibrations occur in a rotor's mechanical system during operation, which frequently limits performance and endangers the operation's safety. However, it can also lead to downtime and costly damage if an undiagnosed problem is discovered in the rotating system. They are used to support rotating shafts. Thus, any flaw or malfunction in the factors might result in product position and outfit losses, as well as an unsafe working environment for humans. As a result, scholars have recently focused a lot of attention on address fault opinions. By vibration measurement and analysis of the bearing, it is possible to detect and locate important faults such as mass unbalance, misalignment, surface defects, and cracks. This article intends to provide researchers with guidance on how to apply vibration analysis for identifying, diagnosing, and addressing various common types of faults. It also highlights numerous essential techniques employed for this purpose condition monitoring of deep groove ball bearing such as fast Fourier transform, and FEM. This work focused on analyzing the modal and harmonic response of the Deep groove ball bearing with multiple surface defects.

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Copyright © 2025 Authors retain the copyright of this article. This article is an open access article distributed under the Creative Commons Attribution License which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

BibTeX

@article{168165,
        author = {Shivam S. Dingane and Swagat S. Kinikar and Avdhut J. Gujar},
        title = {COMPARATIVE STUDY OF HARMONIC RESPONSE OF DEEP GROOVE BALL BEARING 6206 WITH TWO AND THREE SURFACE-DEFECTS},
        journal = {International Journal of Innovative Research in Technology},
        year = {2024},
        volume = {11},
        number = {5},
        pages = {147-156},
        issn = {2349-6002},
        url = {https://ijirt.org/article?manuscript=168165},
        abstract = {Vibration is one of the major parameters to consider in Monitoring health of rotating system. If an undetected fault is remains in the rotating system, it may result in break-down, huge damage, physical injury, or even cause death, therefore early fault identification is a critical factor in ensuring and extending the working life of the rotating systems. Bearings are the most critical components of any rotating system. Various sorts of vibrations occur in a rotor's mechanical system during operation, which frequently limits performance and endangers the operation's safety. However, it can also lead to downtime and costly damage if an undiagnosed problem is discovered in the rotating system. They are used to support rotating shafts. Thus, any flaw or malfunction in the factors might result in product position and outfit losses, as well as an unsafe working environment for humans. As a result, scholars have recently focused a lot of attention on address fault opinions. By vibration measurement and analysis of the bearing, it is possible to detect and locate important faults such as mass unbalance, misalignment, surface defects, and cracks. This article intends to provide researchers with guidance on how to apply vibration analysis for identifying, diagnosing, and addressing various common types of faults. It also highlights numerous essential techniques employed for this purpose condition monitoring of deep groove ball bearing such as fast Fourier transform, and FEM. This work focused on analyzing the modal and harmonic response of the Deep groove ball bearing with multiple surface defects.},
        keywords = {Deep Grove Ball Bearings; Finite Element Technique; Modal Analysis; Harmonic Analysis.},
        month = {October},
        }

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Cite This Article

ISSN: 2349-6002
Volume: 11
Issue: 5
PageNo: 147-156

COMPARATIVE STUDY OF HARMONIC RESPONSE OF DEEP GROOVE BALL BEARING 6206 WITH TWO AND THREE SURFACE-DEFECTS

Available:https://ijirt.org/article?manuscript=168165

13 Jan, 2025

HARMONIC ANALYSIS OF DEEP GROOVE BALL BEARING WITH MULTIPLE SURFACE-DEFECTS USING FINITE ELEMENT METHOD.

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