Add to ORKGTo meet the demands of increasing freight axle loads and cumulative gross tonnages, as well as high-speed passenger rail development in North America, the performance and service life of concrete railway crossties must be improved. As a part of a study funded by the Federal Railroad Administration (FRA) aimed at improving concrete crossties and fastening systems, laboratory experimentation was performed at the Advanced Transportation Research Engineering Laboratory by researchers from the University of Illinois at Urbana-Champaign. This paper focuses on the behavior of concrete cross-ties as well as characterizing and quantifying the loads transmitted from the wheel/rail interface through the fastening system to the tie in the vertical dire...
Federal Railroad Administration2022PDFBriefStuart, CameronDersch, Marcus S.Cesar Bastos, JosueUnited...
An understanding of the load path is necessary for developing a mechanistic design approach for the ...
Volpe National Transportation Systems Center, Technical Reference Centerhttps://doi.org/10.21949/152...
To adequately satisfy the demands placed on North America’s railway infrastructure through ever incr...
US railways move more freight (measured in tonne-kms) by rail than by any other means. This is done...
As higher demands are placed on North American railroad infrastructure by heavy haul traffic, it is ...
The objective of this dissertation is to further investigate the performance of concrete crosstie an...
015992482014PDFTech ReportGrant Number: DTRT12-G-UTC18NURail Project ID: NURail2012-UIUC-R01Concrete...
PDFTech ReportNURail2014-UIUC-R09DTRT12-G-UTC18 (Grant 1)Prestressed concrete tiesPerformance measur...
015992542015FINAL REPORTPDFTech ReportNURail2012-UIUC-R04Grant Number: DTRT12-G-UTC-18NURail Project...
015354312014PDFBriefRR 14-23Concrete tiesRail fastenersDesignPerformance measurementStrain (Mechanic...
In North America, the use of concrete crossties has increased steadily over the past decade as they ...
2014PDFTech ReportNEXTRANS Project No. 0701Y03DTRT07-G-005Concrete tiesRail (Railroads)Abrasion resi...
Concrete is the dominant crosstie material choice for demanding locations on heavy axle load (HAL) f...
A comprehensive study was conducted to determine the variation of transfer length in pretensioned pr...
Federal Railroad Administration2022PDFBriefStuart, CameronDersch, Marcus S.Cesar Bastos, JosueUnited...
An understanding of the load path is necessary for developing a mechanistic design approach for the ...
Volpe National Transportation Systems Center, Technical Reference Centerhttps://doi.org/10.21949/152...
To adequately satisfy the demands placed on North America’s railway infrastructure through ever incr...
US railways move more freight (measured in tonne-kms) by rail than by any other means. This is done...
As higher demands are placed on North American railroad infrastructure by heavy haul traffic, it is ...
The objective of this dissertation is to further investigate the performance of concrete crosstie an...
015992482014PDFTech ReportGrant Number: DTRT12-G-UTC18NURail Project ID: NURail2012-UIUC-R01Concrete...
PDFTech ReportNURail2014-UIUC-R09DTRT12-G-UTC18 (Grant 1)Prestressed concrete tiesPerformance measur...
015992542015FINAL REPORTPDFTech ReportNURail2012-UIUC-R04Grant Number: DTRT12-G-UTC-18NURail Project...
015354312014PDFBriefRR 14-23Concrete tiesRail fastenersDesignPerformance measurementStrain (Mechanic...
In North America, the use of concrete crossties has increased steadily over the past decade as they ...
2014PDFTech ReportNEXTRANS Project No. 0701Y03DTRT07-G-005Concrete tiesRail (Railroads)Abrasion resi...
Concrete is the dominant crosstie material choice for demanding locations on heavy axle load (HAL) f...
A comprehensive study was conducted to determine the variation of transfer length in pretensioned pr...
Federal Railroad Administration2022PDFBriefStuart, CameronDersch, Marcus S.Cesar Bastos, JosueUnited...
An understanding of the load path is necessary for developing a mechanistic design approach for the ...
Volpe National Transportation Systems Center, Technical Reference Centerhttps://doi.org/10.21949/152...