Track alignment on crushed ballast with installation of under sleeper pads and pneumatic shovel packing

Specialists of the Scientific Research Institute of Railway Transport (JSC “VNIIZhT”) and Tracks and track facilities Department of the RUT (MIIT) initiated the procedure in consultation with the Test Center of the JSC “VNIIZhT”, tests were performed on the Test Loop of the JSC “VNIIZhT” in Shcherbinka. The experiment was carried out to confirm the possibility of straightening the track in the profile by instal ling under-slipper pads and pneumatic shovel packing (by padding with the use of a compressed air stream to transfer and distribute the fine gravel particles under the sleeper). The purpose of the test was to search for alternative ways for piling up crushed ballast. As a result of the experiment, it was established:the use of pads and pneumatic shovel packing provides a much greater stability of the track in the profile than the alignment of the track by padding the ballast under the sleepers with electric packing machine;pneumatic shovel packing creates a greater resistance to the sleeper creeping in the zone of the mechanical joint in comparison with the adjustment of punching rubble for sleepers with electric packing machine with identical fasteners (the experimental and control joints follow one another);alignment with the installation of pads and pneumatic shovel packing can be successfully applied on the railway track with a large missed tonnage and high pollution of the ballast prism. The results of the tests carried out on the Test Loop of the JSC “VNIIZhT” help to refine the advanced technologies for straighte ning the railway track in the profile to under-sleeper pads and pneumatic shovel packing for the future creation of experimental sections on the existing rail track and the possible extension of these ways of straightening the railway track in the profile to the entire network.

железнодорожный путь, щебеночный балласт, выправка, подшпальные прокладки, пневматический суфляж

1. Abrashitov A. Experimental study of stoneblowing track surfacing technique. Proceedings of Transportation Geotechnics and Geotechnology (TGG-2017), St. Petersburg, 17 – 19 May 2017. St. Petersburg, 2017. Vol. 189, pp. 75 – 79.

2. Waters J. M. Pneumatic stone injection a means of adjusting track level. Fourth International Rail Track & Sleeper Conference. Adelaide, 1981, pp. 1 – 14.

3. Pevzner V. O., Zheleznov M. M., Kaplin V. N., Tret'yakov V. V., Myslivets M. N., Tomilenko A. S. Povyshenie stabil'nosti puti v zone stykov za schet primeneniya uprugikh podshpal'nykh prokladok [Increasing track stability in the zone of joints due to the use of elastic under sleeper pads]. Vestnik VNIIZhT [Vestnik of the Railway Research Institute], 2016, Vol. 75, no. 3, pp. 140 – 146. DOI: http://dx.doi.org/10.21780/2223-9731-2016-75-3-140-146.

4. Anderson W. F. Experiences with the stoneblower on the UK. Proceedings of the international conference railway engineering (London, UK, July 2002). London, Engineering Technics Press, 2002. CD-ROM.

5. Technically valid standard time for work on the current maintenance of way. Approved by the JSC “Russian Railways” dated 30.03.2009, revised as of 05.08.2015, 7th edition in 2 parts. Moscow, 2015 (in Russ.).

6. Zarembski A. M., Newman G. R. Comparative Technical and Economic Analysis of Stoneblowing vs Tamping // AREMA-2008. Annual Conference and Exposition (Salt Lake City, UT, September 2008). Salt Lake City, 2008.

7. Esveld C. Modern railway track. 2nd ed. Zaltbommel, The Netherlands, MRT-Productions, 2001, 654 p.

8. Indraratna B. Geotechnical properties of ballast and the role of geosynthetics in rail track stabilization. Proc. of the conference. Sydney Geotechnical Consulting Division, Rail Corp (NSW). Sydney, 2006.

9. McMichael P. The Stone blower — Delivering the Promise: Development, Testing and Operation of a New Track Maintenance System. TRB Annual Meeting. [S. l.], 2003. CD-ROM.