Sciences in Cold and Arid Regions ›› 2017, Vol. 9 ›› Issue (3): 317–320.doi: 10.3724/SP.J.1226.2017.00317

• ARTICLES • 上一篇    

Strengthening long-term embankments maintained on permafrost soils

Evgeny S. Ashpiz1, Tatyana S. Vavrinyuk2   

  1. 1. Moscow State University of Railway Engineering of Emperor Nicholas II, 9 Building, 9 Obraztsova St., Moscow 127994, Russia;
    2. The group of companies "MIAKOM", 7 Building, 4 Professor Popov St., St. Petersburg 197022, Russia
  • 收稿日期:2016-12-22 修回日期:2017-01-22 发布日期:2018-11-23
  • 通讯作者: Vavrinyuk Tatyana S., Tatyana S. Vavrinyuk, The group of companies "MIAKOM", 7 Building, 4 Professor Popov St., St. Petersburg 197022, Russia. E-mail: tanyaox@list.ru E-mail:tanyaox@list.ru

Strengthening long-term embankments maintained on permafrost soils

Evgeny S. Ashpiz1, Tatyana S. Vavrinyuk2   

  1. 1. Moscow State University of Railway Engineering of Emperor Nicholas II, 9 Building, 9 Obraztsova St., Moscow 127994, Russia;
    2. The group of companies "MIAKOM", 7 Building, 4 Professor Popov St., St. Petersburg 197022, Russia
  • Received:2016-12-22 Revised:2017-01-22 Published:2018-11-23
  • Contact: Vavrinyuk Tatyana S., Tatyana S. Vavrinyuk, The group of companies "MIAKOM", 7 Building, 4 Professor Popov St., St. Petersburg 197022, Russia. E-mail: tanyaox@list.ru E-mail:tanyaox@list.ru

摘要: An analysis of the reasons for the displacements of long-term embankments maintained on permafrost soils indicates that they mainly occur due to plastic deformations in the layer of seasonal freezing and thawing; therefore, the reconstruction of permafrost is not effective in this case. It is proposed to strengthen these embankments with the help of using jet technology for cementation of the top layer of the roadbed. This approach is considered through the example of the deforming embankment on 6,278 km of the Turinskaya-Karymskaya section of the Trans-Siberian Railway.

关键词: embankment, permafrost roadbeds, temperature forecast, stress-strain state, jet technology

Abstract: An analysis of the reasons for the displacements of long-term embankments maintained on permafrost soils indicates that they mainly occur due to plastic deformations in the layer of seasonal freezing and thawing; therefore, the reconstruction of permafrost is not effective in this case. It is proposed to strengthen these embankments with the help of using jet technology for cementation of the top layer of the roadbed. This approach is considered through the example of the deforming embankment on 6,278 km of the Turinskaya-Karymskaya section of the Trans-Siberian Railway.

Key words: embankment, permafrost roadbeds, temperature forecast, stress-strain state, jet technology

Ashpiz ES, 2012. Scientific support of design works on the facility: Reconstruction of subgrade on a 6278-kilometre section of the Turinskaya-Karymskaya line of the Trans-Siberian Railway: Research report (encl.), MⅡT, Moscow.
Brinkgreve RBJ, 2002. Plaxis 2D, Scientific Manual. V. 8, GeoDelft, Netherlands.
Khrustalev LN, Emelyanova LV, 1994. "WARM", the program of calculation of thermal interaction of engineering structures with permafrost soils, certificate No. 940281 RosAPO.
SP 238.1326000.2015 Railroad, approved by the order of Mintrans of Russia No. 209 of July 6, 2015.
[1] 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.
[2] 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.
[3] 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.
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