Machine criticality assessment for productivity improvement

Gopalakrishnan, Maheshwaran; Skoogh, Anders; Salonen, Antti; Asp, Martin

doi:10.1108/ijppm-03-2018-0091

Cited by 27 publications

(22 citation statements)

References 41 publications

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“…In addition to working hours, process criteria, such as strain and process precision, vary across machines and over time. These varying working conditions provide an important argument for developing diversified PM plans, particularly focusing on solving the maintenance needs of critical equipment (Gopalakrishnan, et al, 2019;Hagberg and Henriksson, 2010).…”

Section: Discussionmentioning

confidence: 99%

“…There are several driving forces for implementing dynamic maintenance plans. Some authors have noted that equipment criticality is becoming more dynamic, and therefore maintenance plans need to be adjusted accordingly (Gopalakrishnan et al, 2019;Adams et al, 2016). Other circumstances include the introduction of condition-based maintenance and predictive maintenance (Aizpurua et al, 2017).…”

Section: Models For Dynamic Maintenance Planningmentioning

confidence: 99%

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Practices of preventive maintenance planning in discrete manufacturing industry

Salonen

Gopalakrishnan

2020

JQME

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PurposeThe purpose of this study was to assess the readiness of the Swedish manufacturing industry to implement dynamic, data-driven preventive maintenance (PM) by identifying the gap between the state of the art and the state of practice.Design/methodology/approachAn embedded multiple case study was performed in which some of the largest companies in the discrete manufacturing industry, that is, mechanical engineering, were surveyed regarding the design of their PM programmes.FindingsThe studied manufacturing companies make limited use of the existing scientific state of the art when designing their PM programmes. They seem to be aware of the possibilities for improvement, but they also see obstacles to changing their practices according to future requirements.Practical implicationsThe results of this study will benefit both industry professionals and academicians, setting the initial stage for the development of data-driven, diversified and dynamic PM programmes.Originality/ValueFirst and foremost, this study maps the current state and practice in PM planning among some of the larger automotive manufacturing industries in Sweden. This work reveals a gap between the state of the art and the state of practice in the design of PM programmes. Insights regarding this gap show large improvement potentials which may prove important for academics as well as practitioners.

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Section: Discussionmentioning

confidence: 99%

Section: Models For Dynamic Maintenance Planningmentioning

confidence: 99%

Practices of preventive maintenance planning in discrete manufacturing industry

Salonen

Gopalakrishnan

2020

JQME

Self Cite

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“…Autonomous data and predictive data are useful for self-learning production systems [57][58][59][60][61][62]. Smart machines in established areas improve themselves (machine learning).…”

Section: Literature Review About Digitalisation In the Steel Industrymentioning

confidence: 99%

Digitalisation and Innovation in the Steel Industry in Poland—Selected Tools of ICT in an Analysis of Statistical Data and a Case Study

Gajdzik

Wolniak

2021

Energies

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Digital technologies enable companies to build cyber-physical systems (CPS) in Industry 4.0. In the increasingly popular concept of Industry 4.0, an important research topic is the application of digital technology in industry, and in particular in specific industry sectors. The aim of this paper is to present the tools used in the steel industry in Poland on its way to the full digitalisation that is needed for the development of Industry 4.0. The paper consists of two parts: a literature review and a practical analysis. The paper provides the background information about digitalisation using digital tools in the steel industry in Poland. The paper was prepared based on secondary information and statistical data. The object of the research is the Polish steel sector. This study assumes that digitalisation is the main area of innovation in the steel industry. The digitalisation determines the creation of new or modified products, processes, techniques and expansion of the company’s infrastructure; therefore, the data on digital technology were supplemented with data on the innovativeness of the Polish steel sector. The results of this study provide managers with valuable information to understand the importance of full digitalisation and the need to focus on digital strategies. Such insights can be used to improve companies’ processing capabilities and produce better products, which is key to innovation.

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“…To perform a detailed risk analysis, the first step is to identify critical assets to narrow the scope of consideration. There are some methods used to identify critical assets, such as FMECA (Failure Mode and Effects and Criticality Analysis), ABC classification [35], risk analysis [36], Analytical Hierarchy Process [35], fuzzy analysis, CEIM (cost-effective maintenance measure) [37], and Weibull analysis [38]. Another example of an already existent methodology is the criticality assessment adapted from Kinz et al [39], which consists of the steps of asset selection, criteria assessment, identification of critical assets and detailed analyses for cost and risk reduction [40,41].…”

Section: Asset Valuation Under Consideration Of Life Cycle Costingmentioning

confidence: 99%

A Knowledge-Based Digital Lifecycle-Oriented Asset Optimisation

Passath

Huber

Biedermann

et al. 2021

Teh. glas. (Online)

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The digitalisation of the value chain promotes sophisticated virtual product models known as digital twins (DT) in all asset-life-cycle (ALC) phases. These models. however, fail on representing the entire phases of asset-life-cycle (ALC), and do not allow continuous life-cycle-costing (LCC). Hence, energy efficiency and resource optimisation across the entire circular value chain is neglected. This paper demonstrates how ALC optimisation can be achieved by incorporating all product life-cycle phases through the use of a RAMS²-toolbox and the generation of a knowledge-based DT. The benefits of the developed model are demonstrated in a simulation, considering RAMS2 (Reliability, Availability, Maintainability, Safety and Sustainability) and the linking of heterogeneous data, with the help of a dynamic Bayesian network (DBN).

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Machine criticality assessment for productivity improvement

Cited by 27 publications

References 41 publications

Practices of preventive maintenance planning in discrete manufacturing industry

Practices of preventive maintenance planning in discrete manufacturing industry

Digitalisation and Innovation in the Steel Industry in Poland—Selected Tools of ICT in an Analysis of Statistical Data and a Case Study

A Knowledge-Based Digital Lifecycle-Oriented Asset Optimisation

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