|
|
Long-term Temperature Gradient Test of Ballastless Track on Bridge-subgrade Transition Section |
SU Chengguang |
China Railway First Survey and Design Institute Group Co. Ltd, Xi′an, Shaanxi 710043, China |
|
|
Abstract Research purposes: In order to reduce the damage of warping and cracking of the ballastless track and ensure the safe and stable operation of the high-speed railway, the one year temperature gradient test of ballastless track on Shanghai-Hangzhou high-speed railway bridge-subgrade transition section was conducted. The temperature gradient distribution and probability distribution of track slab and concrete roadbed are statistically analyzed. Research conclusions: (1) The temperature gradient in the upper track slab is significantly larger than that in the whole track slab. Hence, the temperature gradient in the upper track slab should be chosen for track safety design. (2) The probability of negative temperature gradient in the track slab is greater than the positive temperature gradient. The major temperature gradient range is -30 ℃/m~0 ℃/m for two thirds of one year. (3) The temperature gradient range of concrete roadbed is much smaller than that of the track slab, and its major range is -4 ℃/m~4 ℃/m. (4) The probability distribution of the track slab and the concrete roadbed temperature gradient obeys the exponential function distribution. (5) The research results can provide a theoretical basis for the design, construction and maintenance of ballastless track applied on bridge-subgrade transition section.
|
Received: 11 October 2021
|
|
|
|
|
[1] |
赵坪锐. 客运专线无砟轨道设计理论与方法研究[D]. 成都:西南交通大学,2008.Zhao Pingrui. Research on the Design Theory and Method for Ballastless Track on Passenger Dedicated Line[D]. Chengdu:Southwest Jiaotong University, 2008.
|
[2] |
周凌宇, 赵磊, 张广潮,等. 高速铁路桥上CRTSⅡ型无砟轨道快速升降温模型试验研究[J]. 铁道学报, 2020(4):90-98.Zhou Lingyu, Zhao Lei, Zhang Guangchao, etc. Model Test Study on CRTSⅡ Ballastless Track under Rapid Temperature Rise and Fall on High-speed Railway Bridge[J]. Journal of the China Railway Society, 2020(4):90-98.
|
[3] |
赵磊, 周凌宇, 张营营, 等. 高温季节桥上CRTSⅡ型板式无砟轨道温度分布试验研究[J]. 铁道科学与工程学报, 2021(2):287-296.Zhao Lei, Zhou Lingyu, Zhang Yingying, etc. Experimental Study on Temperature Dstribution of CRTSⅡ Ballastless Track on High-speed Railway Bridge in Summer[J]. Journal of Railway Science and Engineering, 2021(2):287-296.
|
[4] |
胡松林,周小林,徐庆元, 等. 温度梯度荷载作用下CRTSⅡ型轨道板与CA砂浆界面损伤扩展研究[J].铁道科学与工程学报,2019(9):2143-2149.Hu Songlin, Zhou Xiaolin, Xu Qingyuan, etc. The Study of Interface Damage Extension Between CRTS Ⅱ Slab and CA Mortar under Temperature Gradient[J]. Journal of Railway Science and Engineering,2019(9):2143-2149.
|
[5] |
戴公连, 苏海霆, 刘文硕, 等. 高温季节桥上纵连板式无砟轨道的温度分布[J]. 中南大学学报:自然科学版,2017(4):1073-1080.Dai Gonglian, Su Haiting, Liu Wenshuo, etc. Temperature Distribution of Longitudinally Connected Slab Ballastless Track on Bridge in Summer[J]. Journal of Central South University:Science and Technology, 2017(4):1073-1080.
|
[6] |
刘付山, 曾志平, 吴斌, 等. 高速铁路连续式无砟轨道温度场分析[J]. 铁道学报, 2016(12):86-93.Liu Fushan, Zeng Zhiping, Wu Bin, etc. Study on Temperature Field of Continuous Ballastless Track for High-speed Railway[J]. Journal of the China Railway Society, 2016(12):86-93.
|
[7] |
杨荣山, 万章博, 刘学毅, 等. CRTSⅠ型双块式无砟轨道冬季温度场试验[J]. 西南交通大学学报, 2015(3):454-460.Yang Rongshan, Wan Zhangbo, Liu Xueyi, etc. Temperature Field Test of CRTSⅠTwin-block Ballastless Track in Winter[J]. Journal of Southwest Jiaotong University, 2015(3):454-460.
|
|
|
|