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Sciences in Cold and Arid Regions ›› 2017, Vol. 9 ›› Issue (3): 197–204.doi: 10.3724/SP.J.1226.2017.00197

• ARTICLES • 上一篇    

Subgrade-reinforcement techniques for the dangerously deforming sections of railway lines in the north of the Russian Far East

Alexey Piotrovich, Svetlana Zhdanova   

  1. Far Eastern State Transport University, 47, Seryshev Street, Khabarovsk, Russia
  • 收稿日期:2016-11-15 修回日期:2016-12-15 发布日期:2018-11-23
  • 通讯作者: Piotrovich Alexey, Piotrovich Aleksey, Professor, Far Eastern State Transport University, Khabarovsk, Russia. Tel: +7-914-772-91-17; E-mail: piotrovich@rambler.ru E-mail:piotrovich@rambler.ru

Subgrade-reinforcement techniques for the dangerously deforming sections of railway lines in the north of the Russian Far East

Alexey Piotrovich, Svetlana Zhdanova   

  1. Far Eastern State Transport University, 47, Seryshev Street, Khabarovsk, Russia
  • Received:2016-11-15 Revised:2016-12-15 Published:2018-11-23
  • Contact: Piotrovich Alexey, Piotrovich Aleksey, Professor, Far Eastern State Transport University, Khabarovsk, Russia. Tel: +7-914-772-91-17; E-mail: piotrovich@rambler.ru E-mail:piotrovich@rambler.ru

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摘要: This paper lists difficult railway construction conditions that are typical for the northern areas of the Russian Far East. Permafrost-bound issues of railway and highway construction and operation are described. Some of the authors' developments for subgrade stabilization in the foregoing conditions are given as examples.

关键词: permafrost, subgrade, reinforcement techniques

Abstract: This paper lists difficult railway construction conditions that are typical for the northern areas of the Russian Far East. Permafrost-bound issues of railway and highway construction and operation are described. Some of the authors' developments for subgrade stabilization in the foregoing conditions are given as examples.

Key words: permafrost, subgrade, reinforcement techniques

Ashpiz ES, 2002. Monitoring of A Subgrade in Railways Operation, pp. 112.
Belenkov EV, Zhdanova SM, 2011. Heaving and icing as the most hazardous cryogenic deformations. International Geotechnical Symposium Nature and Anthropogenic Disasters Preventive Measures. Khabarovsk, Far Eastern State Transport University Publishing, pp. 279-284.
Belenkov EV, Zhdanova SM, 2013. Long-term subgrade operation in permafrost. Put'i Putevoye Khozyaistvo, 1: 24-28.
Gritsyk VI, 2003. Anti-deformation Structures for A Railway Subgrade. Moscow, Marshrut Publishing, pp. 96.
Kondratiev VG, 2013. Roadbed, embankment, tower support and culvert stability problems on permafrost. Sciences in Cold and Arid Regions, 5(4): 377-386. DOI: 10.3724/SP.J.1226.2013.00377. [DOI:10.3724/SP.J.1226.2013.00377]
Krapivny VA, Bokach GV, Voronin VV, et al., 2003. Reinforcement and reconstruction of a subgrade. Railway Transport Magazine, 4: 27-31.
Pereselenkov GS, Solodovnikov BI, 1982. Railways of the Taiga and Bog Areas. Moscow: Transport Publishing, pp. 279.
Périer L, Doré G, Burn CR, 2014. The effects of water flow and temperature on thermal regime around a culvert built on permafrost. Sciences in Cold and Arid Regions, 6(5): 415-422. DOI: 10.3724/SP.J.1226.2014.00415. [DOI:10.3724/SP.J.1226.2014.00415]
Piotrovich AA, Zhdanova SM, 2015. To the issue of stabilization of permafrost soil subgrade. Sciences in Cold and Arid Regions, 7(4): 329-334. DOI: 10.3724/SP.J.1226.2015.00329. [DOI:10.3724/SP.J.1226.2015.00329]
Piotrovich AA, 2003. Theoretical and practical reconstruction of the transport network in the Russian Far East. Khabarovsk: Far Eastern State Transport University Publishing, pp. 151.
Piotrovich AA, Poloz VN, Shalyagin GL, 1997. Introducing new organizational and engineering solutions at Amur-Yakutsk Mainline construction. Complex issues of design and operation of the railways in the North: Collected Papers of The Conference. Khabarovsk: Far Eastern State Transport University Publishing, pp. 161-163.
Piotrovich AA, Zhdanova SM, 2006. New technologies and designs for road structures based on resource saving. New Ideas for New Century: Collected Papers of The Conference. Khabarovsk, Pacific National University Publishing, pp. 79-84.
Piotrovich AA, Zhdanova SM, Voronin VV, 2003. New technology of filter bank construction. Put' I Putevoye Khozyaistvo, 10: 32-34.
Start-up complex of Tommot-Yakutsk (Nizhniy Bestyakh) is to be finished in 2017. Yakutia. Information, 2015. Available at: http://yakutia.info/article/171125.
Tsernant AA, 1998. Construction of A Subgrade in The Cryolite Zone. Dissertation for a Doctor of Engineering degree. Moscow, pp. 98.
Tsernant AA, 2013. Innovative technologies for temperature management in grounds of transport constructions in Arctic latitudes. Construction Materials, Equipment and Technology of the 21st Century, 3: 26-31.
Tukmakova OV, Zhdanova SM, 2016. Reinforcement of the second track embankment based on a soft ground. Put' I Putevoye Khozyaistvo, 2: 20-22.
Zhang Y, Liu JK, Fang JH, et al., 2013. Reinforcement effects of ground treatment with dynamic compaction replacement in cold and saline soil regions. Sciences in Cold and Arid Regions, 5(4): 440-443. DOI: 10.3724/SP.J.1226.2013.00440. [DOI:10.3724/SP.J.1226.2013.00440]
Zhdanova SM, Dydyshko PI, 2005. Subgrade reinforcement in thawing permafrost. Khabarovsk: Far Eastern State Transport University Publishing, pp. 137.
Zhdanova SM, Katen-Yartsev AS, Shulatov AV, et al., 2003. Impact of vibrations on weak base grounds and new diagnostic method of their condition during monitoring. Bulletin for Railway Electricians, 1: 365-368.
Zhdanova SM, Piotrovich AA, 2001. Suggestions for East BAM reconstruction due to traffic load increase. Increasing the efficiency of the railway transport in Siberia and Far East of Russia. Khabarovsk-Vladivostok: Science Conference Collected Papers, pp. 243-245.
Zhdanova SM, Piotrovich AA, 2014. Scientific and practical results for design of a subgrade in permafrost area. Ural Transport Magazine, 1: 22-25.
Zhinkin GN, Grachev IA, 2001. The specifics of building railways in permafrost and bog areas. Tutorial for Railway Transport Universities, pp. 460.
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