An analysis of the causes of track twist at high speed of driving

Open access

Abstract

The research of railway track surfaces is aimed at improving the quality of railway infrastructure and providing the chance of improving the safety of driving. Therefore, it is advisable to constantly monitor track surface, but the research itself is not innovative because it is based on a known procedure. The crucial element are the techniques that allow to delve into the sources of problems. The aim of the article is to use the selected instruments of quality management to analyze the causes of track twist at high (180 km/h) speed of driving. The analysis of the causes of track twist was done on the basis of results from the measurement of one kilometer track section of the Krakow Glowny - Medyka route, which was made by using the TEC measuring device in April 2018. It was inferred that it is impossible to reach 180 km/h without track twist. In order to identify the causes of track twist it was proposed to use the selected sequence of quality management instruments, i.e.: brainstorming, Ishikawa diagram and the 5Why method. The identified causes of track twist include the abrasion of rail, scratches and exploitation point. The analysis and conclusions drawn from it may be useful in the analysis of other problems in railway transport as well as production and service industries.

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  • Bałuch H. 2009. Derailments of train connecting with track condition and methods of their investigations. XXIV Scientific and Technical Conference construction failures 26-29 May Szczecin-Międzyzdroje 29-44.

  • Bałuch H. Bałuch J. 2015. Working time of broken rails. Notebook Scientific and Technical SITK RP Krakow 2(106) 7-16.

  • Grulkowski S. Kędra Z. 2014. Diagnostic problems of railway rails in tracks and crossovers. Marine Engineer and Geotechnics 5 497-504.

  • Guide 2017. Guide for railway commissions tracks turnouts and crossroads. Warsaw.

  • Harmol A. 2017. Management and quality engineering. PWN Warszawa.

  • Horodecka A. Wolniak R. 2017. Tool for valuing non-conformities in an industrial enterprise. Quality problems 1 13-21.

  • Instruction 2005. Instructions on making measurements tests and assessing the condition of tracks Warszawa. https://www.plksa.pl/files/public/user_upload/pdf/Akty_prawne_i_przepisy/Instrukcje/Podglad/Id-14.pdf [access 18.10.18r.]

  • Nowakowski M.J. 2007. Computer aided planning of current repairs on the railway surface. Doctoral dissertation University of Technology Gdańsk.

  • Pacana A. 2010. Analysis of the implementation of 5S practices using brainstorming and Ishikawa diagram. Organization Overview 6 11-14.

  • Pacana A. Siwiec D. 2018. An Analysis of Factors Affecting the Choice of Medicines. Humanities and Social Sciences HSS XXIII 25 (2/2018) 183-194 DOI: 10.7862/rz.2018.hss.28.

  • PN-EN 13848-5:2017-10. Railways. Track. Geometric quality of the track. Part 5: Levels of geometric quality. Trail.

  • Sęp J. Perłowski R. Pacana A. 2006. Techniques of quality management support. Rzeszow University of Technology Publishing House Rzeszow.

  • Sobaś M. 2017. Safety aspects of driving freight wagons on 1XTa bogeys with leaf springs when travelling in quasi-static conditions on warped track. Rail Vehicles 4 45-56.

  • Stencel G. 2016. Evaluation of Running Surface of Rails by Measuring Corrugation. Railway Problems – Notebook 170 March 87-93.

  • Wolniak R. Skotnicka B. 2008. Quality management methods and tools. Theory and practice. Scientific Publisher of the Silesian University of Technology Gliwice.

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