Stiffness and strength of structural layers from cohesionless material

Gerber, Ulf; Sysyn, Mykola; Zarour, Jandab; Nabochenko, Olga

doi:10.5604/01.3001.0013.2776

Cited by 5 publications

(3 citation statements)

References 17 publications

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“…The double corrugation is be used for all cross-sectional shapes of CMSs (Flener, 2009;Gerber et al, 2019;Machelski, 2013;Maleska & Beben, 2019;Pettersson et al, 2015). Such stiffeners are most widely used for box structures with large cross-sections in which the bending stiffness in the vault of the structure is problematic to provide.…”

Section: Methods For Increasing the Bearing Capacity Of Corrugated Metal Structuresmentioning

confidence: 99%

Restoration of the Bearing Capacity of Damaged Transport Constructions Made of Corrugated Metal Structures

Kovalchuk

Sysyn

Hnativ

et al. 2021

BJRBE

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The paper deals with damages of transport constructions made of corrugated metal structures in the body of a railway track or a road during their operation. A constructive variant to restore the bearing capacity of structures was developed, which consists of installing an annular stiffening rib into the concave part of the corrugated metal profile. The main advantage of this method compared to the double corrugating method is the possibility of performing the reinforcement works during structure operation without interrupting the movement of transport vesicles. The study has proved that the reinforcement method significantly increases the carrying capacity of corrugated metal structures. A numerical finite element model was developed to determine the stress-strain state of structures made of corrugated metal structures reinforced with round stiffening ribs. The soil pressure on the corrugated shell in the model is taken into account with the application of radial and axial forces on the outer surface of the shell. It was determined that the most appropriate location of the ribs is in the centre of the building, where the reinforcement area corresponds to the width of the road or railway line. The advantage of this approach is the ability to more efficiently distribute the reinforcement material by selecting the ribs in the most loaded sections of corrugated metal structures.

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Section: Methods For Increasing the Bearing Capacity Of Corrugated Metal Structuresmentioning

confidence: 99%

Restoration of the Bearing Capacity of Damaged Transport Constructions Made of Corrugated Metal Structures

Kovalchuk

Sysyn

Hnativ

et al. 2021

BJRBE

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“…The study confirms the positive influence of under sleeper pads on the particle breakage as well as the influence of under ballast mat on higher particle movement throughout the trackbed. Gerber, Sysyn, Zarour, & Nabochenko (2019) demonstrate an experimental investigation of ballast layer carrying capacity under the cyclic loading. The scaled model of a structural layer of ballast material with side support was used for the investigation.…”

Section: Introductionmentioning

confidence: 98%

Experimental Study of Railway Trackbed Pressure Distribution Under Dynamic Loading

Sysyn

Kovalchuk

Nabochenko

et al. 2019

BJRBE

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Reliable and durable operation of the railway track under the dynamic load of the rolling stock depends considerably on the ability of the ballast layer to get the load from the sleepers and distribute it to the subgrade. In this paper, the experimental study of the distribution properties of the ballast layer under the impact of dynamic loading depending on the density of the ballast layer is carried out. The ballast behaviour during load cycles is estimated by pressure measurements at the ballast prism base along the axis of a sleeper with simultaneous video observation of the ballast particles movement through transparent sidewalls of the box with crushed stone. Measurements of pressure distribution are carried out with the developed microcontroller system of measurements and developed load cells. The system allows performing multi-point measurements of stress in combination with measurements of acceleration and photogrammetry. The results of measurements showed a significant effect of the ballast layer consolidation on the distribution of stresses under the sleeper. The performed research opens up opportunities for practical improvement of the existing types of track structures and the technology of the ballast layer tamping in terms to provide the optimal conditions for the ballast layer operation.

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“…In relation to the above-mentioned technologies and technical solutions, we can mention some special ones such as application of noise and vibration damping layers and elements [2][3][4][5][6]; ensuring lower stress in the railway permanent ways' that result and ensure lower elastic and plastic deformation in the track as well as in the layer structure [7][8]; techniques which provide special work processes, e.g. tamping of wide sleepers or side tamping that does not disturb the dense, compacted sub-ballast layer [9][10]; new and newer technologies ensuring decreased dynamic effects that can result in subsidiary failures (maybe cracking, fracturing, breaking) in the tracks' elements [11]; minimizing the wear of track elements (mainly the rails') [12] and lowering the ballast breakage [13][14][15][16].…”

Section: Introductionmentioning

confidence: 99%

Investigation of the Glued Insulated Rail Joints Applied to CWR Tracks

Fischer

2021

FU Mech Eng

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This article summarizes the research results related to our own conducted extensive laboratory tests of polymer composite and steel fishplated glued insulated rail joints (GIRJs), namely axial tensile tests as well as vertical static and dynamic tests. The investigation dealt with the examination of GIRJs assembled with steel and special glass-fiber reinforced plastic (polymer composite) fishplates, both of them for CWR railway tracks (i.e. so-called gapless tracks or, in other words, railway tracks with continuously welded rails). The exact rail joint types were MTH-P and MTH-AP, consistently. The MTH P types have been commonly applied for many years in the CWR tracks in Europe, mainly in Hungary. The MTH-AP rail joints consist of fishplates that are produced by the APATECH factory (Russia). They are made of a fiberglass-amplified polymer composite material at high pressure and controlled temperature. This solution can eliminate electrical fishplate lock and early fatigue failures just as it can ensure adequate electrical insulation. The advantage of such rail joints can be that they are probably able to ensure the substitution of the glued insulated rail joints with relatively expensive steel fishplates currently applied by railway companies, e.g. Hungarian State Railways (MÁV). The aim of the mentioned research summarized in this paper is to formulate recommendations on technical applicability and on the technological instructions that are useful in everyday railway operation practice on the basis of the measurements and tests carried out on rail joints in laboratory.

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Stiffness and strength of structural layers from cohesionless material

Cited by 5 publications

References 17 publications

Restoration of the Bearing Capacity of Damaged Transport Constructions Made of Corrugated Metal Structures

Restoration of the Bearing Capacity of Damaged Transport Constructions Made of Corrugated Metal Structures

Experimental Study of Railway Trackbed Pressure Distribution Under Dynamic Loading

Investigation of the Glued Insulated Rail Joints Applied to CWR Tracks

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