Pantograph Sliding Strips Failure—Reliability Assessment and Damage Reduction Method Based on Decision Tree Model

Kuźnar, Małgorzata; Lorenc, Augustyn; Kaczor, Grzegorz

doi:10.3390/ma14195743

Cited by 8 publications

(11 citation statements)

References 17 publications

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“…Reliability assessment and knowledge of experts allowed us to prepare identification algorithms for technical conditions and for replacement causes. The exemplary algorithms are shown below [ 51 ]:

where: Wop replacement of the pantograph Wn replacement of the pantograph sliding strip Nl the locomotive number Nop the pantograph number Top the type of pantograph Gn1 thickness of the first carbon sliding strip Gn2 thickness of the second carbon sliding strip N1 replacement of the sliding strip due to even wear of the sliders N2 replacement of the sliding strip due to detachment of a fragment of the sliding strip, material extraction or burning of the sliding strip N3 replacement of the sliding strip due to uneven wear of the sliders i the measure number …”

Section: Methodsmentioning

confidence: 99%

“…As part of this article, research was carried out only on regression models based on artificial neural networks. The classification method using decision trees was described in the article [ 51 ].…”

Section: Methodsmentioning

confidence: 99%

Section: Causes Of the Replacement Of The Sliding Strip And Its Thick...mentioning

confidence: 99%

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A Method of Predicting Wear and Damage of Pantograph Sliding Strips Based on Artificial Neural Networks

Kuźnar

Lorenc

2021

Materials

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The impact of the pantograph of a rail vehicle on the overhead contact line depends on many factors. Among other things, the type of pantograph, i.e., the material of the sliding strip, influences the wear and possible damage to the sliding strip. The possibility of predicting pantograph failures may make it possible to reduce the number of these kinds of failures. This article presents a method for predicting the technical state of the pantograph by using artificial neural networks. The presented method enables the prediction of the wear and damage of the pantograph, with particular emphasis on carbon sliding strips. The paper compares 12 predictive models based on regression algorithms, where different training algorithms and activation functions were used. Two different types of training data were also used. Such a distinction made it possible to determine the optimal structure of the input and output data teaching the neural network, as well as the determination of the best structure and parameters of the model enabling the prediction of the technical condition of the current collector.

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Section: Methodsmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

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A Method of Predicting Wear and Damage of Pantograph Sliding Strips Based on Artificial Neural Networks

Kuźnar

Lorenc

2021

Materials

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“…The procedure frequently used in the assessment of the causes of faults (failures) that occur during the operation of machines and machineries is the Fault Tree Analysis (FTA) [11,12].…”

Section: Analysis Of Operational Failures Using Cause-effect Diagram ...mentioning

confidence: 99%

“…The Reliability Centered Maintenance method [8,9] does not consider only the parameters characterizing each component of the equipment (failure rate, reliability, mean time between failures, availability, etc. ), but it studies the mode of failing as well, and its effects [10][11][12][13][14][15] (fault tree analysis, analysis of the behavior in case of failure, cause-effect diagram, Pareto diagram, etc. ).…”

Section: Introductionmentioning

confidence: 99%

Study of the Possibilities of Improving Maintenance of Technological Equipment Subject to Wear

Florea

Itu

et al. 2022

Processes

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The rapid development of science and technology, and the restructuring of the mining extraction industry, bring about profound changes in the structure and complexity of technological equipment used in mining. In this paper, the Reliability Centered Maintenance (RCM) method has been applied to analyze the components of the KSW-460NE shearer machine, which fails quite frequently. The cutter drums do not match from a constructive point of view, and the concrete operation conditions, alongside the picks (being in direct contact with coal and hard inclusions) and guides are submitted to intense abrasion wear, showing a great number of failures. The data collected following the machine’s exploitation allowed parameter determination characterizing the reliability of the components mentioned, the manner of failure, and the effects. Using calculation methods, it has been possible to facilitate the interpretation of the result in view of establishing measures required to improve maintenance of the dominant components of the machine, determining replacement intervals, in accordance with an imposed reliability and maintainability. The results of the study assist in the choice of suitable hardening materials for the reconditioning of cutter drums and guides that are necessary for practical trials, by which their operating times, and replacement intervals, respectively, might be additionally improved.

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PSPMoni: A Robust Wear Monitoring Method of Pantograph Slide Plate

Yao,

Liu,

Zhang

et al. 2025

Measurement

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Pantograph Sliding Strips Failure—Reliability Assessment and Damage Reduction Method Based on Decision Tree Model

Cited by 8 publications

References 17 publications

A Method of Predicting Wear and Damage of Pantograph Sliding Strips Based on Artificial Neural Networks

A Method of Predicting Wear and Damage of Pantograph Sliding Strips Based on Artificial Neural Networks

Study of the Possibilities of Improving Maintenance of Technological Equipment Subject to Wear

PSPMoni: A Robust Wear Monitoring Method of Pantograph Slide Plate

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