Predicting the remaining useful life of a cutting tool during turning titanium metal matrix composites

Shaban, Yasser; Yacout, Soumaya

doi:10.1177/0954405416654184

Cited by 11 publications

(5 citation statements)

References 25 publications

(49 reference statements)

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“…Conversely, if the two reliability thresholds are too low, the inspection cycle will be too long, increasing the probability of pipeline failure and related maintenance costs. 46 In conclusion, optimal decision modeling uses the minimum maintenance cost rate as its optimization goal, and the inspection reliability threshold R I and PM reliability threshold R p as decision variables. This optimal decision problem can then be transformed into the following optimization problem:…”

Section: Maintenance Decision Modelmentioning

confidence: 99%

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Pipeline reliability assessment and predictive maintenance considering multi-crack dependent degradation

Zheng,

Dong,

Zhang

et al. 2023

Proceedings of the Institution of Mechanical Engineers, Part B:

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Cracks due to corrosion are one of the main reasons for natural-gas pipeline leaks. Making the reliability assessment, prediction, and maintenance decision of pipelines based on measurable crack data is a central issue at present. The failure of pipelines is usually a result of the cumulative impact of multiple cracks. The interaction between adjacent cracks accelerates crack propagation, and greatly affects the degradation mechanism of pipelines. In this study, the reliability prediction and maintenance decisions were studied by considering the dependent degradation between multiple cracks in pipelines. Firstly, the initiation and propagation of pipeline cracks were modeled using a non-homogeneous Poisson process and a Gamma process, respectively. The interaction between cracks was defined to be a function of the random crack distance, which could be reflected by the change of shape parameters in the Gamma process. Secondly, the pipeline’s failure was defined as the competitive failure of the number of cracks, the maximum crack depth, and the total crack depth. The reliability prediction model of a pipeline under this failure mode was determined. A non-periodic combined maintenance policy considering both the pipeline condition and its predictive reliability was then proposed, and an optimal predictive maintenance decision model was constructed to minimize the long-term average cost rate. Finally, the effectiveness of the proposed model and policy was verified by a numerical experiment and a crack dataset of a transnational pipeline.

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Section: Maintenance Decision Modelmentioning

confidence: 99%

“…Conversely, if the two reliability thresholds are too low, the inspection cycle will be too long, increasing the probability of pipeline failure and related maintenance costs. 46…”

Section: Pipeline Maintenance Decisions Based On Diagnosis and Predic...mentioning

confidence: 99%

Pipeline reliability assessment and predictive maintenance considering multi-crack dependent degradation

Zheng,

Dong,

Zhang

et al. 2023

Proceedings of the Institution of Mechanical Engineers, Part B:

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“…It is also proposed for the wind energy sector, to model failure rate in wind turbines [28] and to assess the turbines stress condition [29]. The research in the cutting tool industry also provides interesting applications of the model [30,31]. And among others, the model have also been proposed for bearings reliability prediction [32], for the machinery in the processing industry [33], for electronic components [34,35] and for piping infrastructure [36].…”

Section: Motivation and Researchmentioning

confidence: 99%

Dynamic artificial neural network-based reliability considering operational context of assets.

Izquierdo

Márquez

Uribetxebarria

2019

Reliability Engineering & System Safety

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Assets reliability is a key issue to consider in the maintenance management policy and given its importance several estimation methods and models have been proposed within the reliability engineering discipline. However, these models involve certain assumptions which are the source of different uncertainties inherent to the estimations. An important source of uncertainty is the operational context in which the assets operate and how it affects the different failures. Therefore, this paper contributes to the reduction of the uncertainty coming from the operational context with the proposal of a novel method and its validation through a case study. The proposed model specifically addresses changes in the operational context by implementing dynamic capabilities in a new conception of the Proportional Hazards Model. It also allows to model interactions among working environment variables as well as hidden phenomena thanks to the integration within the model of artificial neural network methods.

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“…The resulting information is used to predict whether the tool can still machine the piece to an acceptable finish. [15] developed a proportional hazard model for the remaining useful life of 25 identical tools during the turning of titanium metal matrix composites. The remaining useful life curves were developed for two different machining conditions: cutting speed and feed rate.…”

Section: Related Workmentioning

confidence: 99%

A statistical data-based approach to instability detection and wear prediction in radial turning processes

Cortadi¹,

Irigoien²,

Boto³

et al. 2018

EiN

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Article citation info: among other events that can damage both the workpiece and the machine tool [13].Tool condition monitoring can track tool wear and thereby predict the Remaining Useful Life (RUL) of the tool, a very important issue for rapid machining processes involving superalloys. Together with the detection of instability, tool monitoring provides a valuable data source for improving the efficiency of superalloy turning processes.In this paper, cutting-force signals are studied for the detection of instabilities during the hard-turning process and a tool-wear prediction model is proposed. The three superalloys tested in this study were as follows: Inconel 718, Haynes 282 and Waspalloy.The structure of this paper will be as follows. In Section 2, related work on radial turning process optimization, tool-wear prediction, and the improvement of tool life will be discussed. In Section 3, the industrial application will be explained and, in Section 4, the methodology used to detect instabilities and to predict tool wear. The results will

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Predicting the remaining useful life of a cutting tool during turning titanium metal matrix composites

Cited by 11 publications

References 25 publications

Pipeline reliability assessment and predictive maintenance considering multi-crack dependent degradation

Pipeline reliability assessment and predictive maintenance considering multi-crack dependent degradation

Dynamic artificial neural network-based reliability considering operational context of assets.

A statistical data-based approach to instability detection and wear prediction in radial turning processes

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