Recent changes in national transportation needs have placed increased burden on railroad infrastructure. To meet the increased demand for efficient freight transport, the railroad industry has increased traffic volume and maximized axle loadings. Increased axle loads have forced railroads to reevaluate existing infrastructure to ensure their ability to accommodate the additional traffic loads. It is imperative to design and maintain tracks such that they can withstand high volume and increasing axle loads over an extended service life, considering the track structure is the most significant capital expense for railroad companies. It has been desirable for years to develop non-intrusive procedures to directly measure pressures and stresses at various levels and interfaces in the railroad track structure in order to optimize track designs and improve subsequent track performance. Methods for measuring both pressures and deflections have been presented in recent research focusing on assessing the performance of trackbeds with increased track modulus, primarily through the addition of asphalt underlayment. These studies involve instrumenting HMA trackbeds with earth pressure cells and displacement transducers to measure pressure levels and distributions within the track structure and rail deflections under moving trains. Additional test methodologies have been developed to include pressure readings at interfaces like the rail/tieplate interface and the tieplate/tie interface using very thin pressure sensitive Tekscan sensors. The Tekscan Measurement System uses a piezoelectric film sensor composed of a matrix-based array of force sensitive cells, similar to mini strain gauges, to obtain accurate pressure distributions between two surfaces in the track. The procedure appears applicable for a wide variety of specific track related measurements to include: 1) analyzing pressure distribution patterns at the rail base/tie plate/tie interfaces to minimize wear and eliminate pressure points, 2) validating and optimizing horizontal curve geometric design criteria relative to superelevation, 3) assessing crossing diamond, other special trackwork, and bridge approach impact pressures, and 4) evaluating the advantages/disadvantages of various types of tie plates, fastenings, and tie compositions with the objective of equalizing pressure distributions over the interface areas. Results of testing are presented in detail for test installations on CSX Transportation heavy tonnage mainlines and at the Transportation Technology Center (Pueblo) low track modulus heavy tonnage test track.
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IEEE/ASME/ASCE 2008 Joint Rail Conference
April 22–24, 2008
Wilmington, Delaware, USA
Conference Sponsors:
- Rail Transportation Division
ISBN:
0-7918-4812-4
PROCEEDINGS PAPER
In-Situ Test Measurement Techniques Within Railway Track Structures
Justin S. Anderson,
Justin S. Anderson
HDR Engineering, Inc., Cincinnati, OH
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Jerry G. Rose
Jerry G. Rose
University of Kentucky, Lexington, KY
Search for other works by this author on:
Justin S. Anderson
HDR Engineering, Inc., Cincinnati, OH
Jerry G. Rose
University of Kentucky, Lexington, KY
Paper No:
JRC2008-63047, pp. 187-207; 21 pages
Published Online:
June 8, 2009
Citation
Anderson, JS, & Rose, JG. "In-Situ Test Measurement Techniques Within Railway Track Structures." Proceedings of the IEEE/ASME/ASCE 2008 Joint Rail Conference. IEEE/ASME/ASCE 2008 Joint Rail Conference. Wilmington, Delaware, USA. April 22–24, 2008. pp. 187-207. ASME. https://doi.org/10.1115/JRC2008-63047
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