There has been rapid development of high-speed railway lines, especially passenger-dedicated railway lines, in China. Trains are traveling at speeds exceeding 250 km per hour and they require highly smooth tracks to ensure safety. However, there have been no in-depth studies on the early warning of the settlement of high-speed railway lines in China or abroad. Most methods use a simple model based on data processing and decision rules. The core issues of early warning lie in the science and rationality of decision rules. The present paper therefore investigates novel and critical indexes for the warning of settlement under high-speed railway lines according to existing norms and field data, and several essential indexes of deformation warning are suggested through theoretical and experimental analysis.
There have been few studies on early-warning methods for high-speed railway settlement and displacement. Most methods rely on a simple model derived by processing data and setting decision rules. According to theory suggested by the research scholar Chen Shanxiong, general judgement rules involve a core index, controlling index and general index [
According to the norms of high-speed railway surveying [
(1) In the assessment of roadbeds and bridges, if the observation period is more than three months after the completion of the major structure, the subsidence should fluctuate no more than 3.0 mm and the maximum increment of subsidence should be no greater than ±2 mm. Meanwhile, there should be no continuous subsidence in the last four groups of observation data (with an observation period exceeding 1 month) for constructions to be considered of meeting the requirements.
(2) Using actual load and field data for regression analysis and prediction and then determining the trend of deformation, the correlation coefficient of the regression curve should be no less than 0.92.
(3) For those surveying points that have not passed the foregoing assessment criteria, if the overall trend of a settlement curve is convergent in the three months following the completion of a major structure, the survey point is thought to pass the assessment. The survey point can be considered an exceptional point in the curve fitting process but it must remain under observation.
(4) The ratio of a surveying point’s present subsidence value to its maximum prediction value must exceed 75%.
(5) The post-construction difference between adjacent abutments in statically determinate structures should be no greater than 5 mm relative to the ballastless bridge floor and deck.
(6) The difference between the final forecasted settlement and the designed settlement for the same monitoring section should not exceed 10 mm.
(7) The subsidence of each monitoring section should be no greater than 15 mm.
As seen from the above-mentioned indexes and criteria, we can start from a single point and non-uniform settlement in exploring a method of warning about subsidence and deformation under high-speed railway lines.
A warning of single-point subsidence mainly refers to surveying points of any observation section after construction. The survey includes two periods, the period in which ballastless tracks are laid and the period of operation. A feasible way of monitoring and warning subsidence during the latest warning process is to take existing settlement into account and then calculate the results in a year, since the ordinary operating cycle of a high- speed railway is 100 years and cannot be used directly.
There are two forms of subsidence for each single point, one being sudden subsidence, which may cause large and destructive deformation in a short time, and the other being slow subsidence, which may exceed the limits of relevant norms over time.
Sudden subsidence is universally seen in construction projects. Poor geological structures such as red soils and karst caves, as well as outburst floods and continuous heavy rainfalls, usually result in the large settlement of railway tracks; hence, we must issue a warning in such cases. For unapparent factors that may lead to sudden subsidence, a warning is made as a result of persistent monitoring following construction.
Slow post-construction settlement has a much weaker effect on the running of a high-speed railway compared with sudden single-point subsidence. However, it may also cause severe damage when it reaches a certain extent owing to a lack of monitoring. We must therefore pay close attention to its developing trend.
The table shows that the annual settlements for sections 1, 6, 8, 9 and 13 exceed 15 mm. The trends of subsidence in these sections are illustrated in Figures 1-5. The red line denotes the linear trend in each case.
We next select the data for section 2, which is continuously within subsidence limits and whose developing trend is shown in
Observation stage | Observation frequency | |
---|---|---|
After laying ballastless tracks | The first month | biweekly |
The second and third months | monthly | |
The third to twelfth months | trimonthly |
Section number | Accumulated Time(d) | Accumulated subsidence (mm) | Average daily subsidence (mm) | Average weekly subsidence (mm) | Average monthly subsidence (mm) | Average annually subsidence (mm) |
---|---|---|---|---|---|---|
No.1 | 29 | 1.50 | 0.05 | 0.36 | 1.55 | 18.88 |
No.2 | 173 | 2.60 | 0.02 | 0.11 | 0.45 | 5.49 |
No.3 | 146 | 2.10 | 0.01 | 0.10 | 0.43 | 5.25 |
No.4 | 136 | 2.70 | 0.02 | 0.14 | 0.60 | 7.25 |
No.5 | 146 | 2.30 | 0.02 | 0.11 | 0.47 | 5.75 |
No.6 | 68 | 4.10 | 0.06 | 0.42 | 1.81 | 22.01 |
No.7 | 29 | 1.10 | 0.04 | 0.27 | 1.14 | 13.84 |
No.8 | 57 | 2.80 | 0.05 | 0.34 | 1.47 | 17.93 |
No.9 | 57 | 4.50 | 0.08 | 0.55 | 2.37 | 28.82 |
No.10 | 87 | 2.20 | 0.03 | 0.18 | 0.76 | 9.23 |
No.11 | 75 | 1.80 | 0.02 | 0.17 | 0.72 | 8.76 |
No.12 | 65 | 1.60 | 0.02 | 0.17 | 0.74 | 8.98 |
No.13 | 102 | 5.10 | 0.05 | 0.35 | 1.50 | 18.25 |
No.14 | 122 | 4.30 | 0.04 | 0.25 | 1.06 | 12.86 |
No.15 | 110 | 3.70 | 0.03 | 0.24 | 1.01 | 12.28 |
Section number | Accumulated Time(d) | Average annually subsidence(mm) | Average daily subsidence(mm) | Average weekly subsidence(mm) | Average monthly subsidence(mm) |
---|---|---|---|---|---|
Standard section | 365 | 15 | 0.04 | 0.29 | 1.2 |
Non-uniform settlement after construction undermines the riding comfort and smoothness of rails, may prevent trains from travelling quickly, and may even cause serious accidents. However, there have been few studies on the determination of non-uniform subsidence indexes and criteria and the early warning of non-uniform subsidence.
According to railway design guidelines [
Here
We thus get the first warning index for non-uniform subsidence. In the example of a passenger-dedicated line with a train reaching a speed of 300 km per hour, the radius of the vertical curve should be larger than 36,000 m.
The former Science and Technology Division of the Ministry of Railways suggested, according to relevant norms [
Here
Therefore, the maximum settlement of a 50-m orbital base is set to 17 mm for a passenger-dedicated line with a train traveling at 300 km per hour. As the warning method mentioned in the previous section suggests, a warning of uneven subsidence should be issued when the absolute value of subsidence of its adjacent monitoring points in a certain period reaches 2.4 mm. The warning threshold of continuous non-uniform settlement corresponds to 75% of the maximum value; i.e., 13 mm.
This paper presented engineering surveying norms and experience of practical applications. The following conclusions were drawn regarding the warning of post-construction subsidence and deformation under high-speed railway tracks.
(1) The core index of deformation warning, post-construction settlement, must be within 15 mm.
(2) For isolated monitoring points of subsidence, warnings of slow settlement after construction should be issued for settlement exceeding 0.3 mm weekly or 1.2 mm monthly.
(3) When there is sudden subsidence at a monitoring point, the difference in the absolute value of settlement before and after should be less than 2 mm.
(4) For passenger-dedicated lines with trains reaching a speed of 300 km per hour, the radius of the vertical curve ought to exceed 36,000 m.
(5) The maximum settlement of a 50-m orbital base is 17 mm for a passenger-dedicated line with a train traveling at 300 km per hour. A warning of uneven subsidence should be issued when the absolute value of point’s subsidence reaches 2.4 mm. The threshold for a warning of continuous non-uniform settlement should be 13 mm.
This research is supported by the Educational Commission of Hebei Province (No. Z2012109) at the Shijiazhuang Institute of Railway Technology in Shijiazhuang.
Dongwei Li,Yuankun Xu,Ranli Chen, (2015) Early Warning of Foundation Settlement Deformation for Ballastless High-Speed Railway Tracks. World Journal of Engineering and Technology,03,197-202. doi: 10.4236/wjet.2015.33C029