Sciences in Cold and Arid Regions ›› 2015, Vol. 7 ›› Issue (5): 520-527.doi: 10.3724/SP.J.1226.2015.00520
• ARTICLES • Previous Articles
BoWen Tai1, JianHong Fang2, Lei Liu2, AnHua Xu2, JianKun Liu1,2, YaHu Tian1
Cheng GD, 2003. Construction of Qinghai-Tibet Railway in the method of cooling subgrade. China Railway Science, 24(3): 1-4. Greg PN, Ward GW, 1997. Heat and mass transfer in unsaturated soils during freezing. Canadian Geotechnical Journal, 34(1): 61-68. He P, Cheng GD, Yu QH, 2000. A couple model of heat, water and stress fields of saturated soil during freezing. Journal of Glaciology and Geocryology, 22(2): 135-138. Hoekstra P, 1996. Moisture movement in soil under temperature gradients with cold side temperature below freezing. Water Resources Research, (2): 241-250. Hou SG, Wang SJ, Huang XM, 2005. Subgrade deformation forecast of frozen soil based on phase space reconstruction. Journal of Traffic and Transportation Engineering, 5(2): 35-37. Lai YM, Zhang LX, Zhang SJ, 2003. Cooling effect of ripped- stone embankments on Qing-Tibet Railway under climatic warming. Chinese Science Bulletin, 48(6): 598-604. Li DQ, Wu ZW, Zhu LM, 1998. Heat stability analysis of embankment of the degrading permafrost district in the East of Tibetan Plateau, China. Cold Regions Science and Technology, 28(3): 183-188. Li HS, Liu ZL, Li NS, 1998. A frost heave model based on moisture temperature and applied load interaction in frozen soil. Journal of Dalian University of Technology, 38(1): 29-33. Liu YZ, Wu QB, Zhang JM, et al, 2000. Field experimental research on temperature field of highways' subgrade in permafrost region of plateau. Highway, 2(2): 5-8. Liu ZQ, Lai YM, Zhang XF, 2005. Numerical analysis of the ventilated embankment with thermal insulation layer in Qinghai-Tibet Railway. Chinese Journal of Rock Mechanics and Engineering, 24(14): 2537-2543. Mao XS, Hu CS, Hou ZJ, 2004. Laboratory large-scale test of temperature field in permafrost subgrade. Journal of Chang'an University (Natural Science Edition), 24(1): 30-33. Si JF, 2006. Experimental study on subgrade's temperature field distribution in permafrost region. Subgrade, 2(11): 33-35. Sun ZK, Wang LJ, Bai MZ, et al., 2004. Finite element analysis on temperature field of permafrost embankment of Qinghai-Tibet Railway. Chinese Journal of Rock Mechanics and Engineering, 23(20): 3454-3459. Wang TH, 2005. Analysis of frost heave on subgrade in permafrost regions. China Journal of Highway and Transport, 18(2): 1-5. Wang TH, Hu CS, 2001. A numerical model of moisture migration for frozen soil subgrade. China Journal of Highway and Transport, 14(4): 5-8. |
[1] | ZhenMing Wu, Lin Zhao, Lin Liu, Rui Zhu, ZeShen Gao, YongPing Qiao, LiMing Tian, HuaYun Zhou, MeiZhen Xie. Surface-deformation monitoring in the permafrost regions over the Tibetan Plateau, using Sentinel-1 data [J]. Sciences in Cold and Arid Regions, 2018, 10(2): 114-125. |
[2] | JianKun Liu, TengFei Wang, Zhi Wen. Research on pile performance and state-of-the-art practice in cold regions [J]. Sciences in Cold and Arid Regions, 2018, 10(1): 1-11. |
[3] | Yan Lu, Xin Yi, WenBing Yu, WeiBo Liu. Numerical analysis on the thermal regimes of thermosyphon embankment in snowy permafrost area [J]. Sciences in Cold and Arid Regions, 2017, 9(6): 580-586. |
[4] | ZhiZhong Sun, HongLei Wang, WenJie Feng, YongZhi Liu, ShuJuan Zhang. Characteristics of thawed interlayer and its effect on settlement beneath embankment in permafrost regions—A case study for the Qinghai-Tibet Highway [J]. Sciences in Cold and Arid Regions, 2017, 9(5): 447-454. |
[5] | Rudolf V. Zhang. Utilizing natural cryogenic resources to improve the stability of natural-technical systems in the permafrost zone [J]. Sciences in Cold and Arid Regions, 2017, 9(4): 339-342. |
[6] | Feng Zhang, ZhaoHui(Joey) Yang, JiaHui Wang, HaiPeng Li, Benjamin Still. Shear properties of thawed natural permafrost by bender elements [J]. Sciences in Cold and Arid Regions, 2017, 9(4): 343-351. |
[7] | L. Gagarin, A. Melnikov, V. Ogonerov, I. Khristophorov, K. Bazhin. Phenomena caused by seismic and geocryological processes across linear infrastructure, South Yakutia, Russia [J]. Sciences in Cold and Arid Regions, 2017, 9(4): 352-362. |
[8] | Eduard Severskiy. Permafrost response to climate change in the Northern Tien Shan [J]. Sciences in Cold and Arid Regions, 2017, 9(4): 398-403. |
[9] | YuChi Liu, ZhiGang Song. Study on the adaptability of block-rock embankment in permafrost regions [J]. Sciences in Cold and Arid Regions, 2017, 9(4): 412-419. |
[10] | JiLiang Wang, ChenXi Zhang, XinLei Na. Analysis of bearing capacity of pile foundation in discontinued permafrost regions [J]. Sciences in Cold and Arid Regions, 2017, 9(4): 420-424. |
[11] | Alexey Piotrovich, Svetlana Zhdanova. Subgrade-reinforcement techniques for the dangerously deforming sections of railway lines in the north of the Russian Far East [J]. Sciences in Cold and Arid Regions, 2017, 9(3): 197-204. |
[12] | Aleksey Lanis, Denis Razuvaev. Systematization of features and requirements for geological survey of railroad subgrades functioning in cold regions [J]. Sciences in Cold and Arid Regions, 2017, 9(3): 205-212. |
[13] | ZhiChun Zhang, YuPeng Shen, Xiao Wang, YaHu Tian, JianKun Liu, Bagdat Teltayev. Using attributes of electromagnetic waves to determine the water content and frost table in a permafrost area [J]. Sciences in Cold and Arid Regions, 2017, 9(3): 261-266. |
[14] | HongHuan Cui, YuTao Ma, JianKun Liu, ZhiYang Wang. Experimental study of the dynamic behavior of high-grade highway-subgrade soil in a seasonally frozen area [J]. Sciences in Cold and Arid Regions, 2017, 9(3): 289-296. |
[15] | Evgeny S. Ashpiz, Tatyana S. Vavrinyuk. Strengthening long-term embankments maintained on permafrost soils [J]. Sciences in Cold and Arid Regions, 2017, 9(3): 317-320. |
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