Detail publikace

Leakage Detection for Pneumatic Circle of Bus Door Using Acoustic Emission and other NDT Methods

Originální název

Leakage Detection for Pneumatic Circle of Bus Door Using Acoustic Emission and other NDT Methods

Anglický název

Leakage Detection for Pneumatic Circle of Bus Door Using Acoustic Emission and other NDT Methods

Jazyk

en

Originální abstrakt

This paper discusses the methods that detect the leakage of the pneumatic circle of the bus door, shedding light on a new approach to determining the leakage. Difficulties that face the leakage detection process are related to the complicated circle, and the available methods for detection. Applying different methods of non-destructive testing and distinguishing between them through acoustic emission. The study concentrates on the analysis, investigation, performance, and the new applications of the pneumatic circle of bus door. An artificial leak is made in the circle which is controlled manually to determine the quantity and location. The necessary parameters for comparison have been selected after analysing the signals that were obtained from the tests. Root mean square (RMS) of acoustic emission signal, frequency spectrum and time describe the different responses and changing in the signal with and without leakage related with the behaviour of the signal during open and close the door. Due to more stringent safety requirements, buses used by public transport companies and private operators have had safety controls fitted to protect their passengers and to reduce the hazard of accidents in the traffic.

Anglický abstrakt

This paper discusses the methods that detect the leakage of the pneumatic circle of the bus door, shedding light on a new approach to determining the leakage. Difficulties that face the leakage detection process are related to the complicated circle, and the available methods for detection. Applying different methods of non-destructive testing and distinguishing between them through acoustic emission. The study concentrates on the analysis, investigation, performance, and the new applications of the pneumatic circle of bus door. An artificial leak is made in the circle which is controlled manually to determine the quantity and location. The necessary parameters for comparison have been selected after analysing the signals that were obtained from the tests. Root mean square (RMS) of acoustic emission signal, frequency spectrum and time describe the different responses and changing in the signal with and without leakage related with the behaviour of the signal during open and close the door. Due to more stringent safety requirements, buses used by public transport companies and private operators have had safety controls fitted to protect their passengers and to reduce the hazard of accidents in the traffic.

BibTex


@inproceedings{BUT154072,
  author="Houssam {Mahmoud} and Pavel {Mazal} and František {Vlašic} and Libor {Nohál}",
  title="Leakage Detection for Pneumatic Circle of Bus Door Using Acoustic Emission and other NDT Methods",
  annote="This paper discusses the methods that detect the leakage of the pneumatic circle of the bus door, shedding light on a new approach to determining the leakage. Difficulties that face the leakage detection process are related to the complicated circle, and the available methods for detection. Applying different methods of non-destructive testing and distinguishing between them through acoustic emission. The study concentrates on the analysis, investigation, performance, and the new applications of the pneumatic circle of bus door. An artificial leak is made in the circle which is controlled manually to determine the quantity and location. The necessary parameters for comparison have been selected after analysing the signals that were obtained from the tests. Root mean square (RMS) of acoustic emission signal, frequency spectrum and time describe the different responses and changing in the signal with and without leakage related with the behaviour of the signal during open and close the door. 
Due to more stringent safety requirements, buses used by public transport companies and private operators have had safety controls fitted to protect their passengers and to reduce the hazard of accidents in the traffic.",
  address="Vysoké učení technické v Brně ve spolupráci s Českou společností pro NDT, z.s.",
  booktitle="Defektoskopie 2018 / NDE for Safety 2018",
  chapter="154072",
  howpublished="online",
  institution="Vysoké učení technické v Brně ve spolupráci s Českou společností pro NDT, z.s.",
  year="2018",
  month="november",
  pages="67--77",
  publisher="Vysoké učení technické v Brně ve spolupráci s Českou společností pro NDT, z.s.",
  type="conference paper"
}