Performance enhancement of railtrack ballast with rubber inclusions: a laboratory simulation

Railway ballast, which form an integral part of railtracks, is highly susceptible to subsistence due to both vibration transmitted by the passing trains, as well as the breakage of the ballasts themselves with repeated impact. The resulting subsistence necessitates regular monitoring and maintenanc...

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Main Authors: Chan, Chee Ming, Siti Farhanah, SM Johan
Format: Proceeding
Language:English
Published: 2016
Subjects:
Online Access:http://ir.unimas.my/id/eprint/45581/1/15ARC2015.pdf
http://ir.unimas.my/id/eprint/45581/
https://doi.org/10.3208/jgssp.SEA-18
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Institution: Universiti Malaysia Sarawak
Language: English
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spelling my.unimas.ir.455812024-08-12T02:27:12Z http://ir.unimas.my/id/eprint/45581/ Performance enhancement of railtrack ballast with rubber inclusions: a laboratory simulation Chan, Chee Ming Siti Farhanah, SM Johan T Technology (General) TA Engineering (General). Civil engineering (General) TF Railroad engineering and operation Railway ballast, which form an integral part of railtracks, is highly susceptible to subsistence due to both vibration transmitted by the passing trains, as well as the breakage of the ballasts themselves with repeated impact. The resulting subsistence necessitates regular monitoring and maintenance, involving cost- and time-consuming remedial actions, such as stone-blowing and ballast renewal. It would therefore be desirable if measures could be taken to minimize the wear and tear effect of the rail traffic, consequently to prolong the lifespan of the ballast layer. This paper describes the exploratory work on rubber inclusions to address this problem. The rubber elements were derived from the inner tubes of motorcycle tyres, cut and shaped accordingly to produce various configurations for the study. Granitic stones of suitable size were sieved and used as representative samples of typical ballast as the tests were mainly carried out with a standard direct shear test setup, i.e. shearbox measuring 60 mm x 60 mm. The rubber tubes were cut and shredded to produce strips and shreds respectively, and the elements were arranged in various pre-determined configurations within the simulated ballast layer. The direct shear test results indicated that rubber inclusion could effectively improve the shear resistance of ballast to various degrees, though the configurations clearly played an important role in the improvement observed. Both strips and shreds were found expedient in deformation control with increased ductility of the composites, with potential to absorb impact and reduce breakages of the ballasts. Both mechanisms contributed to the reduced overall subsistence, accompanied by an increase in the shear resistance. As such, the present study indicates a promising application of the material in improving the performance and longevity of existing ballast layer in railtracks. Nonetheless, considering that the test setup is but a static, scaled down simulation, without dynamic loading which mimics the rail traffic, it is necessary to conduct further investigations in instrumented full-scale setups for verifications prior to filed implementation. 2016 Proceeding PeerReviewed text en http://ir.unimas.my/id/eprint/45581/1/15ARC2015.pdf Chan, Chee Ming and Siti Farhanah, SM Johan (2016) Performance enhancement of railtrack ballast with rubber inclusions: a laboratory simulation. In: 15th Asian Regional Conference on Soil Mechanics and Geotechnical Engineering, ARC 2015: New Innovations and Sustainability, 9th - 13th November 2015, Fukuoka International Congress Center. https://doi.org/10.3208/jgssp.SEA-18 doi:10.3208/jgssp.SEA-18
institution Universiti Malaysia Sarawak
building Centre for Academic Information Services (CAIS)
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Malaysia Sarawak
content_source UNIMAS Institutional Repository
url_provider http://ir.unimas.my/
language English
topic T Technology (General)
TA Engineering (General). Civil engineering (General)
TF Railroad engineering and operation
spellingShingle T Technology (General)
TA Engineering (General). Civil engineering (General)
TF Railroad engineering and operation
Chan, Chee Ming
Siti Farhanah, SM Johan
Performance enhancement of railtrack ballast with rubber inclusions: a laboratory simulation
description Railway ballast, which form an integral part of railtracks, is highly susceptible to subsistence due to both vibration transmitted by the passing trains, as well as the breakage of the ballasts themselves with repeated impact. The resulting subsistence necessitates regular monitoring and maintenance, involving cost- and time-consuming remedial actions, such as stone-blowing and ballast renewal. It would therefore be desirable if measures could be taken to minimize the wear and tear effect of the rail traffic, consequently to prolong the lifespan of the ballast layer. This paper describes the exploratory work on rubber inclusions to address this problem. The rubber elements were derived from the inner tubes of motorcycle tyres, cut and shaped accordingly to produce various configurations for the study. Granitic stones of suitable size were sieved and used as representative samples of typical ballast as the tests were mainly carried out with a standard direct shear test setup, i.e. shearbox measuring 60 mm x 60 mm. The rubber tubes were cut and shredded to produce strips and shreds respectively, and the elements were arranged in various pre-determined configurations within the simulated ballast layer. The direct shear test results indicated that rubber inclusion could effectively improve the shear resistance of ballast to various degrees, though the configurations clearly played an important role in the improvement observed. Both strips and shreds were found expedient in deformation control with increased ductility of the composites, with potential to absorb impact and reduce breakages of the ballasts. Both mechanisms contributed to the reduced overall subsistence, accompanied by an increase in the shear resistance. As such, the present study indicates a promising application of the material in improving the performance and longevity of existing ballast layer in railtracks. Nonetheless, considering that the test setup is but a static, scaled down simulation, without dynamic loading which mimics the rail traffic, it is necessary to conduct further investigations in instrumented full-scale setups for verifications prior to filed implementation.
format Proceeding
author Chan, Chee Ming
Siti Farhanah, SM Johan
author_facet Chan, Chee Ming
Siti Farhanah, SM Johan
author_sort Chan, Chee Ming
title Performance enhancement of railtrack ballast with rubber inclusions: a laboratory simulation
title_short Performance enhancement of railtrack ballast with rubber inclusions: a laboratory simulation
title_full Performance enhancement of railtrack ballast with rubber inclusions: a laboratory simulation
title_fullStr Performance enhancement of railtrack ballast with rubber inclusions: a laboratory simulation
title_full_unstemmed Performance enhancement of railtrack ballast with rubber inclusions: a laboratory simulation
title_sort performance enhancement of railtrack ballast with rubber inclusions: a laboratory simulation
publishDate 2016
url http://ir.unimas.my/id/eprint/45581/1/15ARC2015.pdf
http://ir.unimas.my/id/eprint/45581/
https://doi.org/10.3208/jgssp.SEA-18
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