Numerical investigation of the effect of variable subsoil conditions and freight traffic on railway infrastructure
For the freight railway it is fundamental to gain competitiveness with respect to the other transportation modes. This can be obtained by new freight vehicles running at higher speed and higher tonnage under controlled conditions over a more resilient infrastructure. The new traffic conditions impose higher dynamic loads on the infrastructure which need to be carefully analyzed. In particular, for the track itself to maintain its geometry for the longest time (under various traffic conditions), it is important that the substrate would remain stable as far as is reasonably practicable under the influence of other external factors such as climatic effects (temperature, groundwater content, etc). This study focuses on the role of track substrate and structure in enabling the railway to effectively bear the higher dynamic loads from new generation of freight vehicles. The impacts of substrate stiffness variation on track geometry deterioration and other track defects is investigated with attention paid to specific freight train typology (namely flat bed wagon), to different loading conditions (from full laden to tare) and speeds at “critical” track locations (e.g. transitions onto and off bridge, abutments, etc.).
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Corporate Authors:
14-20 bd Newton, Cité Descartes, Champs su Marne
77447 Marne la Vallée, France Cedex 2 -
Authors:
- Fuggini, Clemente
- Zangani, Donato
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Conference:
- Transport Research Arena (TRA) 5th Conference: Transport Solutions from Research to Deployment
- Location: Paris , France
- Date: 2014-4-14 to 2014-4-17
- Publication Date: 2014-4
Language
- English
Media Info
- Pagination: 14p
- Monograph Title: Transport Research Arena (TRA) 2014 Proceedings
Subject/Index Terms
- TRT Terms: Bearing capacity; Calculation; Embankments; Railroad tracks; Simulation; Soil stabilization; Subsoil
- ITRD Terms: 3085: Bearing capacity; 6464: Calculation; 2801: Embankment; 1062: Railway track; 9103: Simulation; 3689: Soil stabilization; 2930: Subsoil
- Subject Areas: Geotechnology; Railroads; I22: Design of Pavements, Railways and Guideways;
Filing Info
- Accession Number: 01540757
- Record Type: Publication
- Source Agency: Swedish National Road and Transport Research Institute (VTI)
- Files: VTI, TRIS, ATRI
- Created Date: Oct 15 2014 10:36AM