Spare parts’ criticality assessment and prioritization for enhancing manufacturing systems’ availability and reliability

•The proposed approach will help to increase the production system availability and reliability.•The proposed assessment method help increase the availability of spare part and decrease MLDT time.•The approach provides transparency in prioritizing spare parts in relation to the all criteria.•The app...

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Bibliographic Details
Published in:Journal of manufacturing systems 2019-01, Vol.50, p.212-225
Main Authors: Antosz, Katarzyna, Ratnayake, R.M. Chandima
Format: Article
Language:English
Subjects:
Analytic hierarchy process
Availability
Empirical model
Maintenance
Manufacturing systems
Prioritization
Reliability
Spare parts
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Summary:•The proposed approach will help to increase the production system availability and reliability.•The proposed assessment method help increase the availability of spare part and decrease MLDT time.•The approach provides transparency in prioritizing spare parts in relation to the all criteria.•The approach enabled to visualize the spare parts prioritization assessments along a hierarchy.•The method facilitates the interpretation of the all set of criteria with the potential alternatives. Manufacturing systems (MSs) have become more and more complex, due to global competition. Optimal spare parts provisioning plays a critical role in sustaining an anticipated operational competitiveness level, via efficient and effective maintenance of machinery. The forecasting of intermittent demand for spare parts is a challenge, as it is not always possible to avoid random unforeseen breakdowns, which reduce availability and increase the unreliability of manufacturing systems. The aforementioned requires a systemic perspective, in order to perform a criticality analysis and prioritization of the spare parts needed to increase a manufacturing system’s availability and reliability. This paper first demonstrates the development of an empirical model (EM), using a case study MS. The EM enables a criticality analysis to be performed, considering the system perspective of spare part management, by taking maintenance-related and logistics-related factors into account. After that, the machineries are categorized into groups, considering the factors related to the maintenance, logistics and criticality levels. The second part presents how to perform spare part prioritization within a selected group, via an analytic hierarchy process (AHP), to minimize ad hoc suboptimal assessments, together with sensitivity analyses. Finally, it presents the spare part prioritization and the subsequent sensitivity analysis results.
ISSN:0278-6125
1878-6642
DOI:10.1016/j.jmsy.2019.01.003