Optimizing opportunistic preventive maintenance strategy for multi-unit system of CNC lathe

1. Z. Yang et al., Progress in the research of reliability technology of machine tools, J. of Mechanical Engineering, 49(20) (2013), 130–139.

2. S. Lee, S. Han and H. Lee, Assessment of the tool post reliability of a high-stiffness turning machine, Journal of Mechanical Science and Technology, 21(8) (2007), 1244–1252.

3. B. Sun et al., Reliability evaluation of the servo turret with accurate failure data and interval censored data based on EM algorithm, Journal of Mechanical Science and Technology, 34(4) (2020), 1503–1513.

4. Y. M. Zhao et al., Optimal policy research of preventive maintenance period to series systems, Fire Control & Command Control, 34(4) (2009), 63–66.

5. M. C. Eti, S. O. T. Ogaji and S. D. Probert, Reducing the cost of preventive maintenance (PM) through adopting a proactive reliability-focused culture, Applied Energy, 83(11) (2006), 1235–1248.

6. S.-H. Ding and S. Kamaruddin, Maintenance policy optimization—literature review and directions, The International J. of Advanced Manufacturing Technology, 76(5) (2015), 1263–1283.

7. M. Pexa et al., Reliability and risk treatment centered maintenance, Journal of Mechanical Science and Technology, 28(10) (2014), 3963–3970.

8. S.-H. Baek et al., Reliability design of preventive maintenance scheduling for cumulative fatigue damage, Journal of Mechanical Science and Technology, 23(5) (2009), 1225–1233.

9. M.-K. Shin et al., A study on the condition based maintenance evaluation system of smart plant device using convolutional neural network, Journal of Mechanical Science and Technology, 34 (2020), 2507–2514.

10. C. Stenström et al., Preventive and corrective maintenance-cost comparison and cost-benefit analysis, Structure and Infrastructure Engineering, 12(5) (2016), 603–617.

11. C. H. Lie and Y. H. Chun, An algorithm for preventive maintenance policy, IEEE Transactions on Reliability, 35(1) (1986), 71–75.

12. L. Qiu, Preventive maintenance schedule of CNC machine tool based on Monte Carlo simulation, 2014 17th International Conference on Electrical Machines and Systems (ICEMS), IEEE (2014), 993–996.

13. N. M. Thoppil, V. Vasu and C. S. P. Rao, Failure mode identification and prioritization using FMECA: a study on computer numerical control lathe for predictive maintenance, J. of Failure Analysis and Prevention, 19(4) (2019), 1153–1157.

14. N. M. Thoppil, V. Vasu and C. S. P. Rao, On the criticality analysis of computer numerical control lathe subsystems for predictive maintenance, Arabian J. for Science and Engineering (2020) 1–13.

15. D. Mourtzis et al., A cloud-based approach for maintenance of machine tools and equipment based on shop-floor monitoring, Procedia CIRP, 41 (2016), 655–660.

16. J. Hardono, Analisa total productive maintenance (TPM) menggunakan overall equipment effectiveness (OEE) pada mesin CNC milling, Jurnal Teknik, 9(2) (2020), 3689.

17. Z. Hussain and H. Jan, Establishing simulation model for optimizing efficiency of CNC machine using reliability-centered maintenance approach, International J. of Modeling, Simulation, and Scientific Computing, 10(6) (2019), 1950034.

18. H. Ab-Samat and S. Kamaruddin, Opportunistic maintenance (OM) as a new advancement in maintenance approaches: a review, J. of Quality in Maintenance Engineering, 20(2) (2014), 98–121.

19. X. Zhang and J. Zeng, Deterioration state space partitioning method for opportunistic maintenance modelling of identical multi-unit systems, International J. of Production Research, 53(7–8) (2015), 2100–2118.

20. K. A. Nguyen, P. Do and A. Grall, Condition-based maintenance for multi-component systems using importance measure and predictive information, International J. of Systems Science Operations & Logistics, 1(4) (2014), 228–245.

21. Nguyen et al., Maintenance strategy selection for improving cost-effectiveness of offshore wind systems, Energy Conversion and Management, 157 (2018), 86–95.

22. K. Atashgar and H. Abdollahzadeh, Reliability optimization of wind farms considering redundancy and opportunistic maintenance strategy, Energy Conversion & Management, 112 (2016), 445–458.

23. M. Colledani, M. C. Magnanini and T. Tolio, Impact of opportunistic maintenance on manufacturing system performance, CIRP Annals, 67(1) (2018), 499–502.

24. X. Zhou and M. Yu, Semi-dynamic maintenance scheduling for multi-station series systems in multi-specification and small-batch production, Reliability Engineering and System Safety, 195 (2020), 106753.

25. L. Yang, Y. Zhao and X. Ma, Group maintenance scheduling for two-component systems with failure interaction, Applied Mathematical Modelling, 71 (2019), 118–137.

26. M. A. K. Malik, Reliable preventive maintenance scheduling, AIIE Transactions, 11(3) (1979), 221–228.

27. T. Nakagawa, Sequential imperfect preventive maintenance policies, IEEE Transactions on Reliability, 37(3) (1988), 295–298.

28. C. Hongxing, D. Wang and T. Wei, Sectional model involving two Weibull distributions for CNC lathe failure probability, J. of Beijing University of Aeronautics and Astronautics, 31(7) (2005), 766–769.

29. C. H. Lie and Y. H. Chun, An algorithm for preventive maintenance policy, IEEE Transactions on Reliability, 35(1) (1986), 71–75.

30. V. Jayabalan and D. Chaudhuri, Optimal maintenance and replacement policy for a deteriorating system with increased mean downtime, Naval Research Logistics (NRL), 39(1) (1992), 67–78.

31. F. Chen et al., Research on imperfect preventive maintenance strategy for turret system of the CNC lathe, 2016 11th International Conference on Reliability, Maintainability and Safety (ICRMS), IEEE (2016), 1–4.

32. D. Olteanu and L. Freeman, The evaluation of median-rank regression and maximum likelihood estimation techniques for a two-parameter Weibull distribution, Quality Engineering, 22(4) (2010), 256–272.

Want more information on CNC Turret? Click the link below to contact us.