UNVEILING BEARINGS' BREAKING POINT: ANALYZING VIBRATION FLUCTUATIONS AND INVESTIGATING FAILURE MODES FOR FAILURE THRESHOLD DETERMINATION IN ROLLING ELEMENT BEARINGS

Authors

  • Addin Behzad School of Mechanical Engineering, Sharif University of Technology, Tehran, Iran

Keywords:

Rolling element bearings, predictive maintenance, failure threshold determination

Abstract

This study delves into the critical task of determining failure thresholds in rolling element bearings, a pivotal aspect of predictive maintenance. Titled "Unveiling Bearings' Breaking Point," the research employs advanced vibration fluctuation analysis and investigates various failure modes to establish robust thresholds for identifying impending bearing failures. Through a comprehensive examination of vibration signatures and failure mechanisms, this study aims to contribute to the advancement of condition monitoring strategies for rolling element bearings, enhancing reliability and efficiency in industrial machinery.

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References

Mahamad, A.K.; Saon, S.; Hiyama, T. Predicting remaining useful life of rotating machinery based artificial neural network. Comput. Math. Appl. 2010, 60, 1078–1087.

ISO. Standard ISO 13381-1. Condition Monitoring and Diagnostics of Machines—Prognostics—Part 1: General Guidelines; ISO: Geneva, Switzerland, 2015.

ISO. Standard ISO 10816-3. Mechanical Vibration—Evaluation of Machine Vibration by Measurements on Non-Rotating Parts—Part 3: Industrial Machines with Normal Power above 15 kW and Nominal Speeds between 120 r/min and 15000 r/min; ISO: Geneva, Switzerland, 2009.

Elasha, F.; Shanbr, S.; Li, X.; Mba, D. Prognosis of a wind turbine gearbox bearing using supervised machine learning. Sensors 2019, 19, 3092.

Wang, D.; Tsui, K.L. Two novel mixed effects models for prognostics of rolling element bearings. Mech. Syst. Signal Process. 2018, 99, 1–13.

Wang, Y.; Peng, Y.; Zi, Y.; Jin, X.; Tsui, K.L. A Two-Stage Data-Driven-Based Prognostic Approach for Bearing Degradation Problem. IEEE Trans. Ind. Inform. 2016, 12, 924–932.

Lim, C.K.R.; Mba, D. Switching Kalman filter for failure prognostic. Mech. Syst. Signal Process. 2015, 52, 426–435.

Bastami, A.R.; Aasi, A.; Arghand, H.A. Estimation of remaining useful life of rolling element bearings using wavelet packet decomposition and artificial neural network. IJSTE 2019, 43, 233–245.

Nectoux, P.; Gouriveau, R.; Medjaher, K.; Ramasso, E.; Chebel-Morello, B.; Zerhouni, N.; Varnier, C. PRONOSTIA: An experimental platform for bearings accelerated degradation tests. In Proceedings of the IEEE International Conference on Prognostics and Health Management, Denver, CO, USA, 18–21 June 2012; Available online: https://hal.archives-ouvertes.fr/hal-00719503 (accessed on 20 July 2012).

Behzad, M.; Arghand, H.A.; Bastami, A.R. Remaining useful life prediction of ball-bearings based on high-frequency vibration features. Proc. Inst. Mech. Eng. Part C J. Mech. Eng. Sci. 2018, 232, 3224–3234.

Behzad, M.; Arghand, H.A.; Bastami, A.R. Rolling Element Bearings Prognostics Using High-Frequency Spectrum of Offline Vibration Condition Monitoring Data. In Proceedings of the Condition Monitoring and Diagnostic Engineering Management, Rustenburg, South Africa, 2–5 July 2018.

Li, N.; Lei, Y.; Lin, J.; Ding, S.X. An improved exponential model for predicting remaining useful life of rolling element bearings. IEEE Trans. Ind. Electron. 2015, 62, 7762–7773.

Wang, P.; Coit, D.W. Reliability and degradation modeling with random or uncertain failure threshold. In Proceedings of the 2007 Annual Reliability and Maintainability Symposium, Orlando, FL, USA, 22–25 January 2007.

Nystad, B.H.; Gola, G.; Hulsund, J.E. Lifetime models for remaining useful life estimation with randomly distributed failure thresholds. In Proceedings of the First European Conference of the Prognostics and Health Management Society, 2012; Available online: https://www.phmsociety.org/node/788 (accessed on 30 May 2012).

Yu, T.; Fuh, C.D. Estimation of Time to Hard Failure Distributions Using a Three-Stage Method. IEEE Trans. Reliab. 2010, 59, 405–412.

Qiu, H.; Lee, J.; Lin, J.; Yu, G. Wavelet Filter-based Weak Signature Detection Method and its Application on Roller Bearing Prognostics. J. Sound Vib. 2006, 289, 1066–1090.

Tobon-Mejia, D.A.; Medjaher, K.; Zerhouni, N.; Tripot, G. A Data-Driven Failure Prognostics Method Based on Mixture of Gaussians Hidden Markov Models. IEEE Trans. Reliab. 2012, 61, 491–503.

Cui, L.; Wang, X.; Xu, Y.; Jiang, H.; Zhou, J. A novel switching unscented Kalman filter method for remaining useful life prediction of rolling bearing. Measurement 2019, 135, 678–684.

Behzad, M.; Arghand, H.A.; Bastami, A.R.; Zuo, M.J. Prognostics of rolling element bearings with the combination of Paris law and reliability method. In Proceedings of the 2017 Prognostics and System Health Management Conference, Harbin, China, 9–12 July 2017.

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Published

2024-01-01

How to Cite

Addin Behzad. (2024). UNVEILING BEARINGS’ BREAKING POINT: ANALYZING VIBRATION FLUCTUATIONS AND INVESTIGATING FAILURE MODES FOR FAILURE THRESHOLD DETERMINATION IN ROLLING ELEMENT BEARINGS. Journal of Applied Science and Social Science, 14(01), 01–06. Retrieved from https://www.internationaljournal.co.in/index.php/jasass/article/view/76

Issue

Vol. 14 No. 01 (2024): Volume 14 Issue 01

Section

Articles

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