Article ID: | iaor2016951 |
Volume: | 32 |
Issue: | 3 |
Start Page Number: | 795 |
End Page Number: | 804 |
Publication Date: | Apr 2016 |
Journal: | Quality and Reliability Engineering International |
Authors: | Selim Hasan, Yunusoglu Mualla Gonca, Yilmaz Balaman Sebnem |
Keywords: | quality & reliability, maintenance, repair & replacement, combinatorial optimization, scheduling, risk |
A maintenance planning framework is developed in this study to reduce and stabilize the maintenance costs of the manufacturing companies. The framework is based on fuzzy technique for order preference by similarity to ideal solution(TOPSIS) and failure mode and effects analysis (FMEA) techniques and supports maintenance planning decisions in a dynamic way. The proposed framework is general and can easily be adapted to a host of manufacturing environments in a variety of sectors. To determine the maintenance priorities of the machines, fuzzy TOPSIS technique is employed. In this regard, ‘risk priority number’ obtained by FMEA and ‘current technology’, ‘substitutability’, ‘capacity utilization’, and ‘contribution to profit’ are used as the criteria. Performance of the resulting maintenance plan is monitored, and maintenance priorities of the machines are updated by the framework. To confirm the viability of the proposed framework, a real‐world implementation in an international food company is presented. The results of the application reveal that the proposed maintenance planning framework can effectively and efficiently be used in practice.