Abstract
Lean-sustainable maintenance requires knowledge, estimation and evaluation of lean and sustainability factors in a maintenance. While there may be many ways of adopting maintenance management systems, it is necessary to determine factors that influence lean-sustainable maintenance management before implementing it. The purpose of this paper is to identify and analyse factors influencing lean-sustainable maintenance management through literature review and expert opinion. The interrelationships among these factors are analysed using total interpretive structural modelling approach. The results found that top-management commitment in adopting integrated lean-sustainable maintenance, sustainable spare parts management, maintenance for energy efficiency are driving factors. This study will help the maintenance managers to focus on factors that would be of significant importance to their lean-sustainable maintenance implementation in the organisation.
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Ahmad M, Tang XW, Qiu JN, Ahmad F (2019) Interpretive structural modeling and MICMAC analysis for identifying and benchmarking significant factors of seismic soil liquefaction. Appl Sci 9(2):233
Aldairi J, Khan MK, Munive-Hernandez JE (2017) Knowledge-based Lean Six Sigma maintenance system for sustainable buildings. Int J Lean Six Sigma 8(1):109–130
Blanco JG, Dederichs T (2018) Lean maintenance: a practical, step-by-step guide for increasing efficiency. Taylor & Francis, Abingdon
Chandramowli S, Transue M, Felder F (2011) Analysis of barriers to development in landfill communities using interpretive structural modeling. Habitat Int 35:246–253
Chaple AP, Narkhede BE, Akarte MM, Raut R (2018) Modeling the lean barriers for successful lean implementation: TISM approach. Int J Lean Six Sigma 12(1):98–119
de Souza JPE, Dekkers R (2019) Adding sustainability to lean product development. Procedia Manuf 39:1327–1336
Dubey R, Gunasekaran A, Papadopoulos T (2017) Green supply chain management: theoretical framework and further research directions. Benchmarking Int J 24(1):184–218
Dunn S (2018) What is lean maintenance? https://www.assetivity.com.au/article/maintenancemanagement/what-is-lean-maintenance.html
Firdaus N, Samat HA, Mohamad N (2019) Maintenance for energy efficiency: a review. In: IOP conference series: materials science and engineering, vol 530, no 1. IOP Publishing, p 012047
Franciosi C, Lambiase A, Miranda S (2017) Sustainable maintenance: a periodic preventive maintenance model with sustainable spare parts management. IFAC-PapersOnLine 50(1):13692–13697
Goelzer BI (2001) Hazard prevention and control programs. Occupational exposure to noise: evaluation, prevention and control. World Health Organization, Geneva
Jasiulewicz-Kaczmarek M, Drożyner P (2013) The role of maintenance in reducing the negative impact of a business on the environment. Sustainability appraisal: quantitative methods and mathematical techniques for environmental performance evaluation. Springer, Berlin, pp 141–166
Jena J, Sidharth S, Thakur LS, Pathak DK, Pandey VC (2017) Total interpretive structural modeling (TISM): approach and application. J Adv Manag Res 14(2):162–181
Kanisuru AM (2017) Sustainable maintenance practices and skills for competitive production system. IntechOpen
Lakshmi Priyadarsini S, Suresh M (2020) Factors influencing the epidemiological characteristics of pandemic COVID 19: a TISM approach. Int J Healthc Manag 3(2):89–98
Lakshmi Priyadarsini S, Suresh M, Huisingh D (2020) What can we learn from previous pandemics to reduce the frequency of emerging infectious diseases like COVID-19? Glob Transit 2:202–220
Menon S, Suresh M (2019) Total interpretive structural modelling: evolution and applications. International conference on innovative data communication technologies and application. Springer, Cham, pp 257–265
Menon S, Suresh M (2021a) Enablers of workforce agility in engineering educational institutions. J Appl Res Higher Educ 13(2):504–539
Menon S, Suresh M (2021b) Factors influencing organizational agility in higher education. Benchmarking Int J 28(1):307–332
Muganyi P, Mbohwa C, Madanhire I (2018) Design-out maintenance as a crucial maintenance facet
Ogunbiyi OE, Goulding JS (2013) A review of lean concept and its application to sustainable construction in the UK. Int J Sustain Constr Eng Technol 4(2):82–92
Patil M, Suresh M (2019) Modelling the enablers of workforce agility in IoT projects: a TISM approach. Glob J Flex Syst Management 20(2):157–175
Patri R, Suresh M (2017) Modelling the enablers of agile performance in healthcare organization: a TISM approach. Glob J Flex Syst Manag 18(3):251–272
Patri R, Suresh M (2018) Factors influencing lean implementation in healthcare organizations: an ISM approach. Int J Healthc Manag 11(1):25–37
Pintelon L, Muchiri PN (2009) Safety and maintenance. Handbook of maintenance management and engineering. Springer, London, pp 613–648
Raut RD, Narkhede B, Gardas BB (2017) To identify the critical success factors of sustainable supply chain management practices in the context of oil and gas industries: ISM approach. Renew Sustain Energy Rev 68:33–47
Raut R, Narkhede BE, Gardas BB, Luong HT (2018) An ISM approach for the barrier analysis in implementing sustainable practices. Benchmarking Int J 25(4):1245–1271
Renganath K, Suresh M (2016) Analyzing the drivers for safety practices using interpretive structural modeling: a case of Indian manufacturing firms. In: IEEE international conference on computational intelligence and computing research (ICCIC). IEEE, pp 1–6
Roy R, Stark R, Tracht K, Takata S, Mori M (2016) Continuous maintenance and the future–foundations and technological challenges. CIRP Ann 65(2):667–688
Smith R, Hawkins B (2004) Lean maintenance: reduce costs, improve quality, and increase market share. Elsevier, Amsterdam
Suresh M, Arun Ram Nathan RB (2020) Readiness for lean procurement in construction projects. Constr Innov 20(4):587–608
Suresh M, Ganesh S, Raman R (2019a) Modelling the factors of agility of humanitarian operations. Int J Agile Syst Manag 12(2):108–123
Suresh M, Mahadevan G, Abhishek RD (2019b) Modelling the factors influencing the service quality in supermarkets. Int J Syst Assur Eng Manag 10(6):1474–1486
Sushil S (2012) Interpreting the interpretive structural model. Glob J FlexSyst Manag 13(2):87–106
Trout J (2021) Maintenance management: an overview. Reliable Plant. https://www.reliableplant.com/maintenance-management-31856
Vaishnavi V, Suresh M (2020) Modelling of readiness factors for the implementation of Lean Six Sigma in healthcare organizations. Int J Lean Six Sigma. https://doi.org/10.1108/IJLSS-12-2017-0146
Vaishnavi V, Suresh M, Dutta P (2019a) A study on the influence of factors associated with organizational readiness for change in healthcare organizations using TISM. Benchmarking Int J 26(4):1290–1313
Vaishnavi V, Suresh M, Dutta P (2019b) Modelling the readiness factors for agility in healthcare organization: a TISM approach. Benchmarking Int J 26(7):2372–2400
Warfield J (1973) On arranging elements of a hierarchy in graphic form. IEEE Trans Syst Man Cybern 2:121–132
Warfield J (1974) Toward interpretation of complex structural models. IEEE Trans Syst Man Cybern 5:405–417
Zawawi EMA, Kamaruzzaman SN, Ithnin Z, Zulkarnain SH (2011) A conceptual framework for describing CSF of building maintenance management. Procedia Eng 20:110–117
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Ramiya, S., Suresh, M. Factors influencing lean-sustainable maintenance using TISM approach. Int J Syst Assur Eng Manag 12, 1117–1131 (2021). https://doi.org/10.1007/s13198-021-01304-7
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DOI: https://doi.org/10.1007/s13198-021-01304-7