ELECTROMAGNETIC SYSTEM FOR IMPROVING THE ADHESION OF WHEELS TO RAILS

ELECTROMAGNETIC SYSTEM FOR IMPROVING THE ADHESION OF WHEELS TO RAILS

The article describes the design of a system used for the improvement of the adhesion of locomotive wheels to rails; the principle of which is based on the electromagnetic feeding of the contact area with the bulk material that has magnetic properties and high hardness (iron scale Fe3O4 and magnetit...

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Main Authors: Yuriy OSENIN, Lidiya ANTOSHKINA, Igor SOSNOV, Evgeniy SHAPRAN, Aleksei CHESNOKOV
Format: Article
Language:English
Published: Silesian University of Technology 2019-03-01
Series:Transport Problems
Subjects:
clutch
wheel
rail
magnetization
sand
scale
magnetite
Online Access:http://transportproblems.polsl.pl/pl/Archiwum/2019/zeszyt1/2019t14z1_06.pdf
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spelling doaj-aa1d55d204f1407c9bcbc584772cdf012020-11-25T01:56:16ZengSilesian University of TechnologyTransport Problems1896-05962300-861X2019-03-0114105906710.20858/tp.2019.14.1.6ELECTROMAGNETIC SYSTEM FOR IMPROVING THE ADHESION OF WHEELS TO RAILSYuriy OSENIN0Lidiya ANTOSHKINA1Igor SOSNOV2Evgeniy SHAPRAN3Aleksei CHESNOKOV4Berdyansk University of Management and BusinessBerdyansk University of Management and BusinessNational Technical University "Kharkov Polytechnic Institute"National Technical University "Kharkov Polytechnic Institute"State Budget Institution of Higher Education of the Moscow Region "University of Technology"The article describes the design of a system used for the improvement of the adhesion of locomotive wheels to rails; the principle of which is based on the electromagnetic feeding of the contact area with the bulk material that has magnetic properties and high hardness (iron scale Fe3O4 and magnetite FeOFe2O3). The experimental results of laboratory and bench tests confirming the effectiveness of the proposed system compared with the existing devices using quartz sand to improve the adhesion of wheels to rails are presented. It is concluded that the use of an electromagnetic system for improving the particle supply to the wheel/rail interface is promising.http://transportproblems.polsl.pl/pl/Archiwum/2019/zeszyt1/2019t14z1_06.pdfclutchwheelrailmagnetizationsandscalemagnetite
collection DOAJ
language English
format Article
sources DOAJ
author Yuriy OSENIN
Lidiya ANTOSHKINA
Igor SOSNOV
Evgeniy SHAPRAN
Aleksei CHESNOKOV
spellingShingle Yuriy OSENIN
Lidiya ANTOSHKINA
Igor SOSNOV
Evgeniy SHAPRAN
Aleksei CHESNOKOV
ELECTROMAGNETIC SYSTEM FOR IMPROVING THE ADHESION OF WHEELS TO RAILS
Transport Problems
clutch
wheel
rail
magnetization
sand
scale
magnetite
author_facet Yuriy OSENIN
Lidiya ANTOSHKINA
Igor SOSNOV
Evgeniy SHAPRAN
Aleksei CHESNOKOV
author_sort Yuriy OSENIN
title ELECTROMAGNETIC SYSTEM FOR IMPROVING THE ADHESION OF WHEELS TO RAILS
title_short ELECTROMAGNETIC SYSTEM FOR IMPROVING THE ADHESION OF WHEELS TO RAILS
title_full ELECTROMAGNETIC SYSTEM FOR IMPROVING THE ADHESION OF WHEELS TO RAILS
title_fullStr ELECTROMAGNETIC SYSTEM FOR IMPROVING THE ADHESION OF WHEELS TO RAILS
title_full_unstemmed ELECTROMAGNETIC SYSTEM FOR IMPROVING THE ADHESION OF WHEELS TO RAILS
title_sort electromagnetic system for improving the adhesion of wheels to rails
publisher Silesian University of Technology
series Transport Problems
issn 1896-0596
2300-861X
publishDate 2019-03-01
description The article describes the design of a system used for the improvement of the adhesion of locomotive wheels to rails; the principle of which is based on the electromagnetic feeding of the contact area with the bulk material that has magnetic properties and high hardness (iron scale Fe3O4 and magnetite FeOFe2O3). The experimental results of laboratory and bench tests confirming the effectiveness of the proposed system compared with the existing devices using quartz sand to improve the adhesion of wheels to rails are presented. It is concluded that the use of an electromagnetic system for improving the particle supply to the wheel/rail interface is promising.
topic clutch
wheel
rail
magnetization
sand
scale
magnetite
url http://transportproblems.polsl.pl/pl/Archiwum/2019/zeszyt1/2019t14z1_06.pdf
work_keys_str_mv AT yuriyosenin electromagneticsystemforimprovingtheadhesionofwheelstorails
AT lidiyaantoshkina electromagneticsystemforimprovingtheadhesionofwheelstorails
AT igorsosnov electromagneticsystemforimprovingtheadhesionofwheelstorails
AT evgeniyshapran electromagneticsystemforimprovingtheadhesionofwheelstorails
AT alekseichesnokov electromagneticsystemforimprovingtheadhesionofwheelstorails
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