Your search keyword '"Track gauge"' showing total 561 results

1. Investigation of the Causes of Railway Track Gauge Narrowing

Author

Péter Bocz, Nándor Liegner, Ákos Vinkó, and Szabolcs Fischer

Subjects

railway track, track gauge, track gauge narrowing, plain track, turnout, statistical analysis, Mechanical engineering and machinery, TJ1-1570, Machine design and drawing, TJ227-240, Motor vehicles. Aeronautics. Astronautics, TL1-4050

Abstract

On behalf of MÁV Hungarian State Railways Ltd., the authors carried out a research and development (R&D) project on behalf of the Budapest University of Technology and Economics, Department of Highway and Railway Engineering, on the subject of “Research and investigation of the causes of gauge narrowing by finite-element modeling in running track and turnout, and under operational and laboratory conditions”. The main objective of the research was to investigate the causes of localized defects of gauge narrowing in railway tracks based on machine and manual track measurements, laboratory measurements, and theoretical considerations. The measures proposed as a consequence of identifying the causes could significantly contribute to reducing the number and extent of local defects in the future. Furthermore, the research aims to develop new theories in less scientifically mature areas and provide procedures and instructions that professional engineers and practitioners can easily apply. The main areas of research, which are not exhaustive, are as follows: (i) the evaluation of the measurement results provided by track geometry measuring and recording cars; (ii) on-site investigations in the railway track in terms of gauge and rail profile measurements; and, based on these, (iii) the selection of concrete sleepers, which were removed from the track and subjected to more detailed geometrical investigations in the laboratory, together with the components of the rail reinforcement; (iv) the track–vehicle connection, tight running in straight and curved track sections under track confinement; (v) modeling of the stability and deflection of the rail when the rail fastenings lose part of their supporting function; and (vi) finite element modeling of the concrete sleepers under operating conditions such as slow deformation of the concrete, temperature variation effects, and lateral support on the ballast. In the already-narrowed track section, the tight vehicle running is not the cause of the track gauge narrowing but a consequence, so it is not investigated in this paper.

Published

2023

2. Investigation of the Causes of Railway Track Gauge Narrowing.

Author

Bocz, Péter, Liegner, Nándor, Vinkó, Ákos, and Fischer, Szabolcs

Subjects

BALLAST (Railroads), FINITE element method, HIGHWAY engineering, GAGES

Abstract

On behalf of MÁV Hungarian State Railways Ltd., the authors carried out a research and development (R&D) project on behalf of the Budapest University of Technology and Economics, Department of Highway and Railway Engineering, on the subject of "Research and investigation of the causes of gauge narrowing by finite-element modeling in running track and turnout, and under operational and laboratory conditions". The main objective of the research was to investigate the causes of localized defects of gauge narrowing in railway tracks based on machine and manual track measurements, laboratory measurements, and theoretical considerations. The measures proposed as a consequence of identifying the causes could significantly contribute to reducing the number and extent of local defects in the future. Furthermore, the research aims to develop new theories in less scientifically mature areas and provide procedures and instructions that professional engineers and practitioners can easily apply. The main areas of research, which are not exhaustive, are as follows: (i) the evaluation of the measurement results provided by track geometry measuring and recording cars; (ii) on-site investigations in the railway track in terms of gauge and rail profile measurements; and, based on these, (iii) the selection of concrete sleepers, which were removed from the track and subjected to more detailed geometrical investigations in the laboratory, together with the components of the rail reinforcement; (iv) the track–vehicle connection, tight running in straight and curved track sections under track confinement; (v) modeling of the stability and deflection of the rail when the rail fastenings lose part of their supporting function; and (vi) finite element modeling of the concrete sleepers under operating conditions such as slow deformation of the concrete, temperature variation effects, and lateral support on the ballast. In the already-narrowed track section, the tight vehicle running is not the cause of the track gauge narrowing but a consequence, so it is not investigated in this paper. [ABSTRACT FROM AUTHOR]

Published

2023

3. Investigation of the Track Gauge in Curved Sections, Considering Hungarian Railway Lines.

Author

Fischer, Szabolcs, Németh, Dalma, and Horváth, Henriett

Subjects

LOGNORMAL distribution, DISTRIBUTION (Probability theory), GAGES, GAUSSIAN distribution, TIME series analysis, RATIO analysis, CURVES

Abstract

In this paper, the authors examined the change in track gauges in curves for several railway lines with low and high traffic in Hungary (i.e., secondary lines and main lines). They covered the processing of raw data as well as statistical calculations. The considered curved sections were transition curves (TCs) and circular curves (CCs), as well as—in some cases—entire curves (ECs), including TCs and CCs, but not dividing them into parts. The change of track gauge parameter as a function of elapsed time was analyzed based on the distribution functions by calculating the Vaszary-type shape number. A statistical test with the Kolmogorov–Smirnov test was performed, in which the question as to whether the measurement data of the railway lines followed a normal or lognormal distribution was examined; additionally, the skewness and kurtosis parameters were calculated and analyzed. The authors also took into account the impact of the track system and the sleepers. For the selected curves, the authors observed how the average track gauge changes and categorized them according to tolerances. In presenting and summarizing the tests, the authors formulated a conclusion for each study fulfilled. Despite higher traffic loads, the value of track degradation over time is lower for mainline curves than for secondary line curves. It is because the main line has stricter tolerances due to the higher speeds allowed, and more maintenance work is carried out on these lines. The authors concluded that the type of the track system and the sleeper type also influence the change in track gauges in curves. The accurate deterioration ratios for all analyses are contained in the paper. [ABSTRACT FROM AUTHOR]

Published

2023

4. Investigation of Track Gauge and Alignment Parameters of Ballasted Railway Tracks Based on Real Measurements Using Signal Processing Techniques.

Author

Fischer, Szabolcs, Liegner, Nándor, Bocz, Péter, Vinkó, Ákos, and Terdik, György

Subjects

SIGNAL processing, TIME-frequency analysis, TIME-domain analysis, TIME series analysis, RAILROAD track maintenance & repair, GAGES

Abstract

This paper deals with the time-frequency characteristic analysis for track geometry irregularities using field data recorded by a comprehensive track inspection train. The parameters of the track gauge and the left and right rail alignment are considered to identify their characteristic wavelengths and the locations of their waveforms. In addition to the conventional time and frequency domain analysis, auto-adaptive signal decomposition techniques are used on four pre-selected track sections. During the time series analysis of the track gauge, the cumulative difference from the mean value is calculated, which makes it possible to distinguish the track section constructed with non-standard initial track gauges. The sensitive wavelengths of the track irregularities are obtained from the proper allocation of wavelength ranges in the Fourier Amplitude Spectrum of the original signal and the Fourier transform of the components detected by the Variational Mode Decomposition. This analysis can elucidate the wavelengths and positions of track irregularities that affect vehicle responses. [ABSTRACT FROM AUTHOR]

Published

2023

5. GEOMETRY VARIATION OF BALLASTED RAILWAY TRACKS DUE TO WEATHER CONDITIONS.

Author

Jóvér, V., Sysyn, M., Liu, J., and Fischer, S.

Subjects

FREIGHT & freightage, MEASURING instruments, SERVICE life, PASSENGER traffic, RAILROADS, RAILROAD track maintenance & repair, STREET railroads

Abstract

Purpose. Investigate and establish the relationship between track geometry measurements and weather conditions to determine the parameters that influence the lifetime of railway tracks’ superstructure system. The study of ballasted beds of railway tracks is very important for operation and maintenance in case of main lines, industrial sidings and mine transport. Methodology. Determination of the annual load of the selected section based on the regulations. Compari of the track parameters measurements made by TrackScan 4.01 instrument in different seasons and temperatures. Among the parameters measured by the instrument, the track gauge, alignment, longitudinal level, and superelevation parameters are considered and analyzed in this article.Since the main lines’ traffic are permanently loaded with passenger and freight transport and the industrial sidings and mine tracks are used in the production process, the examinations can only be done on tramway tracks during the standstills at night. The results of these measurement on tramway tracks can help to understand the identify of railway tracks’ lifetime and can be used in mainlines, industrial and mining railway tracks. Findings. The change in the average values of selected track geometrical parameters is analyzed, considering the typical weather conditions. Based on the measurement and results, there is an evident connection between the evaluated results of track geometry measurements and the change in weather conditions. Originality. Finding the relationship between changes in track geometry values and weather conditions on the basis of an evaluation of track geometry measurements taken on average every third month. Practical value. The results can then be used as input data for determining the service life of the track superstructure in the case of tramways, mainlines, industrial and mining railway tracks. [ABSTRACT FROM AUTHOR]

Published

2023

6. Statistical Analysis of Track Geometry Parameters on Tramway Line No. 1 in Budapest

Author

Vivien Jover and Szabolcs Fischer

Subjects

alignment, deterioration, geometrical analysis, longitudinal level, superelevation, superstructure systems, tramway track, track gauge, Highway engineering. Roads and pavements, TE1-450, Bridge engineering, TG1-470

Abstract

The article examines the superstructures of the tramway tracks of tramway line No. 1 in Budapest (the capital of Hungary). Since the first appearance of tramways, several technological advancements have been made to serve passenger needs as efficiently as possible. Several types of tramway track superstructure systems can be differentiated, which are implemented differently in each project. Furthermore, these superstructure types have different degradation times (both geometrical and structural), which depend on several factors. Nowadays, visual inspections are no longer considered sufficient in monitoring the tracks’ condition and deterioration, thus it is necessary to consider examinations carried out using the sensors mounted on the vehicles. Adopting appropriate methods, the measured data can be modeled and the life cycle of superstructures and structural elements can be determined as a result of sufficiently long-term studies (i.e., life cycle costs, the whole lifetime, etc.). First, the authors present a review of the relevant international literature, after that they conduct analysis of track geometry parameters of the superstructures related to five sections on the investigated tramway line based on the results of the measurements performed for three consecutive years between 2019 and 2021. The analyses consist primarily in statistical examination of the measured and calculated parameters.

Published

2022

7. Numerical and experimental investigation of the wheel/rail interaction and dynamics for a high-speed gauge-changeable railway vehicle.

Author

Shi, Huailong, Gan, Feng, Li, Fansong, and Guo, Jinying

Subjects

*RAILROAD trains, *WHEELS, *MULTIBODY systems, *HIGH speed trains, *CLINICAL pathology

Abstract

For a high-speed rail vehicle with gauge-changeable wheelsets, wheel/rail interactions and vehicle dynamics were numerically and experimentally studied within 600 km/h. Matching among four treads, three rail profiles, two gauges, and two rail cants are analysed by examining the wheelset conicity, contact points distribution, and stress. It shows that the conicities of the S1002 and LMA become smaller than the permitted minimum when rail cant 1/20 is used instead of 1/40 when matching with any of the three rail profiles. The conicity of S1002 decreases by up to 95% while that of LMA drops by about 30%. Whereas the RUS and LMB10 are compatible with two cants. Worn treads are more sensitive to the rail cant than new ones. Wheelback distance error leads to a conicity change, especially for worn profiles. A multi-body vehicle system dynamics analysis indicates that a 0.6 mm wheel-axle clearance leads to running instability at low speeds, but will not have an obvious effect on running safety and ride comfort. The vehicle dynamics behaviour on the standard- and broad-gauge tracks shows a slight difference. This has been validated through lab tests performed on a full-scale roller rig. [ABSTRACT FROM AUTHOR]

Published

2022

8. STATISTICAL ANALYSIS OF TRACK GEOMETRY PARAMETERS ON TRAMWAY LINE NO. 1 IN BUDAPEST.

Author

JOVER, VIVIEN and FISCHER, SZABOLCS

Subjects

LIFE cycle costing, TECHNOLOGICAL innovations, STREET railroads

Abstract

The article examines the superstructures of the tramway tracks of tramway line No. 1 in Budapest (the capital of Hungary). Since the first appearance of tramways, several technological advancements have been made to serve passenger needs as efficiently as possible. Several types of tramway track superstructure systems can be differentiated, which are implemented differently in each project. Furthermore, these superstructure types have different degradation times (both geometrical and structural), which depend on several factors. Nowadays, visual inspections are no longer considered sufficient in monitoring the tracks' condition and deterioration, thus it is necessary to consider examinations carried out using the sensors mounted on the vehicles. Adopting appropriate methods, the measured data can be modeled and the life cycle of superstructures and structural elements can be determined as a result of sufficiently long-term studies (i.e., life cycle costs, the whole lifetime, etc.). First, the authors present a review of the relevant international literature, after that they conduct analysis of track geometry parameters of the superstructures related to five sections on the investigated tramway line based on the results of the measurements performed for three consecutive years between 2019 and 2021. The analyses consist primarily in statistical examination of the measured and calculated parameters. [ABSTRACT FROM AUTHOR]

Published

2022

9. DEVISING AN APPROACH TO THE GEOMETRIC MODELING OF RAILROAD TRACKS ALONG CURVILINEAR SECTIONS.

Author

Borisenko, Valeriy, Ustenko, Serhiy, and Ustenko, Iryna

Subjects

GEOMETRIC approach, RAILROAD tracks, GEOMETRIC modeling, ARC length, MECHANICAL wear, DOCKS

Abstract

This paper proposes an approach to arranging curvilinear sections of the railroad track, which involves the replacement of two transitional ones and a circular curve with one curvilinear section. Modeling this section implies the construction of a curve in the plan and profile, the joint consideration of which forms the spatial appearance of the curve, which ensures a smooth transition between the rectilinear rails. The need for such transitions is due to the terrain, the need to bypass settlements, and the presence of geological, geographical, and other obstacles that occur when laying railroads. A curvilinear section is modeled in the plan using a curve that is represented in natural parameterization under the law of curvature distribution in the form of a fifth-power polynomial. At the same time, at the start and end points of the section, the curvature and its derivative accept zero values. The outer rail elevation retraction (modeling in the profile) is performed using the curve built, whose sections are also represented in natural parameterization with the dependences of the curvature distribution on the arc length in the form of fourth-power polynomials. At the docking point of the sections, the third order of smoothness is ensured, which implies the equality of values of the functions, their derivatives, the curvature, and a derivative of the curvature from the length of its natural arc. Measures have been proposed to ensure the predefined track gauge retraction. The application of the proposed approach to model a railroad track along the curvilinear section with a variable-radius curve could make it possible to achieve a favorable curvature distribution, a smooth elevation retraction of the outer rail and the track gauge. That would consequently improve the safety of rolling stock running along the curvilinear section of the track, reduce the lateral and vertical efforts that predetermine the wear of rails and wheelsets. [ABSTRACT FROM AUTHOR]

Published

2022

10. Investigation of the Track Gauge in Curved Sections, Considering Hungarian Railway Lines

Author

Szabolcs Fischer, Dalma Németh, and Henriett Horváth

Subjects

railway track, track gauge, statistical analysis, time-series analysis, distribution, circular curve (CC), Technology

Abstract

In this paper, the authors examined the change in track gauges in curves for several railway lines with low and high traffic in Hungary (i.e., secondary lines and main lines). They covered the processing of raw data as well as statistical calculations. The considered curved sections were transition curves (TCs) and circular curves (CCs), as well as—in some cases—entire curves (ECs), including TCs and CCs, but not dividing them into parts. The change of track gauge parameter as a function of elapsed time was analyzed based on the distribution functions by calculating the Vaszary-type shape number. A statistical test with the Kolmogorov–Smirnov test was performed, in which the question as to whether the measurement data of the railway lines followed a normal or lognormal distribution was examined; additionally, the skewness and kurtosis parameters were calculated and analyzed. The authors also took into account the impact of the track system and the sleepers. For the selected curves, the authors observed how the average track gauge changes and categorized them according to tolerances. In presenting and summarizing the tests, the authors formulated a conclusion for each study fulfilled. Despite higher traffic loads, the value of track degradation over time is lower for mainline curves than for secondary line curves. It is because the main line has stricter tolerances due to the higher speeds allowed, and more maintenance work is carried out on these lines. The authors concluded that the type of the track system and the sleeper type also influence the change in track gauges in curves. The accurate deterioration ratios for all analyses are contained in the paper.

Published

2023

11. Investigation of Track Gauge and Alignment Parameters of Ballasted Railway Tracks Based on Real Measurements Using Signal Processing Techniques

Author

Szabolcs Fischer, Nándor Liegner, Péter Bocz, Ákos Vinkó, and György Terdik

Subjects

railway track geometry, track gauge, alignment, signal processing, mode decomposition, Technology

Abstract

This paper deals with the time-frequency characteristic analysis for track geometry irregularities using field data recorded by a comprehensive track inspection train. The parameters of the track gauge and the left and right rail alignment are considered to identify their characteristic wavelengths and the locations of their waveforms. In addition to the conventional time and frequency domain analysis, auto-adaptive signal decomposition techniques are used on four pre-selected track sections. During the time series analysis of the track gauge, the cumulative difference from the mean value is calculated, which makes it possible to distinguish the track section constructed with non-standard initial track gauges. The sensitive wavelengths of the track irregularities are obtained from the proper allocation of wavelength ranges in the Fourier Amplitude Spectrum of the original signal and the Fourier transform of the components detected by the Variational Mode Decomposition. This analysis can elucidate the wavelengths and positions of track irregularities that affect vehicle responses.

Published

2023

12. THE ROLE OF UKRAINIAN RAILWAY TRANSPORT IN MODERN LOGISTIC PROCESSES

Author

D. V. Lomotko, H. O. Prymachenko, and Y. I. Hryhorova

Subjects

interoperability, track gauge, logistic systems, supplies chains, Transportation engineering, TA1001-1280

Abstract

Purpose. As Ukraine actively develops its transport and logistics network taking into account the modern changes, the ever-increasing trade volume between the Europe and Asia, presents a good opportunity for increasing interoperability for the networks of international railway transportations. The study is aimed to consider in detail main components of railway interoperability and possible ways for achievement of their interaction. Methodology. The idea of interoperability was taken as a basis as a part of logistic system at railway. The crossing of different types of gauges was analyzed on the example of collaboration of Ukraine with European and Asian countries due to the increased freight traffic volume between them. Findings. Taking into account the basic technical parameters unifying the railway operation we found out the following principles: to agree upon a set of technical parameters, essential for the interoperability of the entire region; to determine the values and methods for agreement of the technical parameters to achieve technical interoperability; to decide on gradual implementation of technical interoperability, starting from the international corridors in a coordinated way depending on the priorities of international transportations. Originality. We considered the value of interoperability as a part of railway logistic systems. Practical value. The obtained results of search can be used during implementation of common platform of Ukraine`s collaboration with other countries related to the railway interoperability by establishing common base for work in prospective collaboration.

Published

2019

13. TRACK GAUGE STABILITY UNDER EFFECT OF SLEEPER THERMAL EXPANSION.

Author

LOJDA, VÍT and KREJCIRÍKOVÁ, HANA

Subjects

THERMAL expansion, SPECIFIC heat capacity, POLYMERIC composites

Published

2019

14. The First Main Line in Russia

Author

D. Yu. Levin

Subjects

Competition (economics), Market economy, State (polity), law, Creditor, media_common.quotation_subject, Control (management), Steam locomotive, Business, Track gauge, media_common, law.invention

Abstract

The article is dedicated to the 170th anniversary of the first Russian railway main line St. Petersburg–Moscow. The country’s railway transport, as the main type of transportation, has a rich history and remarkable patriotic, labour, scientific, and technical traditions. We must remember them. The emergence of railways in Russia, as in other countries of the world, was accompanied by many problems that needed to be solved: financing methods, types of ownership, track gauge, types of traction and signalling, traffic management and control, competition with other modes of transport, etc. The stage of emergence of railways in Russia is very instructive. What extreme points of view were expressed, and how long did it take to start building main lines? After the society realised the need for construction of railways, it became obvious that the costs required are not affordable neither for the state, nor for creditors, nor for private entrepreneurs. To better understand how construction of the first railway in Russia was conducted, the article offers many illustrations.

Published

2021

15. A recommender system for train routing: When concatenating two minimum length paths is not the minimum length path.

Author

Hernando, Antonio, Roanes-Lozano, Eugenio, and Garcia-Álvarez, Alberto

Subjects

*RAILROAD routing, *RECOMMENDER systems, *MATHEMATICAL models, *SCHEDULING, *GRAPH theory, *ESTIMATION theory, *RAILROAD gauges, *RAILROADS

Abstract

In this paper, we propose a method for finding the optimal route for a specific train from a station to another one in the Spanish railway network (or any railway network involving different incompatible features like gauges, electrification and signaling systems). The complexity of the Spanish railway infrastructure makes it difficult to give an estimation of the fastest route of a train from a given station to another. Indeed, very unintuitive situations may happen. The problem of finding fastest routes is typically modeled by a graph where nodes represent stations and edges represent railway sections. However, this approach is not suitable for the Spanish railway network. In order to solve the problem of calculating the fastest routes, we will propose here a novel approach based on modeling the railway network through a different graph whose nodes represent railway sections. [ABSTRACT FROM AUTHOR]

Published

2018

16. Analysis Effect Of Thick Ballast On Track Quality Index (TQI) Value Route Wonokromo – Mojokerto

Author

Catur Arif Prastyanto, Hera Widyastuti, and Untung Subarkah

Subjects

Ballast, Simple linear regression analysis, Index (economics), media_common.quotation_subject, Environmental science, Quality (business), Cant (road/rail), Track (rail transport), Civil engineering, Track gauge, media_common

Abstract

In Operational Area 8 Surabaya there are several railway lines, one of which is the Wonokromo - Mojokerto line. This lane has a fairly heavy train traffic frequency including the connecting lane south. This will affect the quality of roads on the Wonokromo - Mojokerto line. To assess damage to a railroad seen from several aspects in the structure of the railroad. These aspects are the structure of the railroad, the structure of the railroad and the geometrical structure of the railroad. In Indonesian railways, the railroad uses railroad geometry consisting of several parameters (track gauge, cant, longitudinal level, and lateral level.) as a basis for assessing railroad quality. In this study will analyze the structure of the railroad under the thickness of the ballast to the Track Quality Index (TQI). In this study using a simple linear regression analysis to determine the variation of the thickness of the ballast to TQI. From the results of the analysis conducted, obtained thickness changes that occur in ballast that affect the value of the Track Quality Index (TQI). Where the greater ballast, the greater the value of TQI.

Published

2021

17. Numerical and experimental investigation of the wheel/rail interaction and dynamics for a high-speed gauge-changeable railway vehicle

Author

Fansong Li, Huailong Shi, Feng Gan, and Jinying Guo

Subjects

Matching (statistics), Engineering, business.industry, Mechanical Engineering, Dynamics (mechanics), Mechanical engineering, 020302 automobile design & engineering, 02 engineering and technology, Gauge (firearms), Vehicle dynamics, 020303 mechanical engineering & transports, 0203 mechanical engineering, Automotive Engineering, Tread, Safety, Risk, Reliability and Quality, business, Track gauge

Abstract

For a high-speed rail vehicle with gauge-changeable wheelsets, wheel/rail interactions and vehicle dynamics were numerically and experimentally studied within 600 km/h. Matching among four treads, ...

Published

2021

18. Spatial pattern and developing mechanism of railway geo-systems based on track gauge: A case study of Eurasia

Author

Chengjin Wang, Peiran Chen, Xumao Li, Weidong Liu, and Yongshun Xie

Subjects

010504 meteorology & atmospheric sciences, 05 social sciences, 0507 social and economic geography, Mode (statistics), Fragmentation (computing), Space (commercial competition), Track (rail transport), Geopolitics, 01 natural sciences, Geography, Gauge (instrument), Earth and Planetary Sciences (miscellaneous), Economic geography, 050703 geography, Track gauge, 0105 earth and related environmental sciences, Path dependence

Abstract

The railway is an indispensable feature of a nation’s infrastructure, and the gauge is an internal and objective technical regulation of the railway. In the large-scale regional space, the track gauges reflect the development differences, historical relations and mutual influences between countries and regions. This makes the railway, originally as a regional connection, have special social, political, military and other multiple attributes. Based on this, the paper, from the perspective of railway gauge, takes the Eurasian continent as the case region to explore the spatial pattern, formation mechanism and organizational mode of communication of the Eurasian continental railway geo-system. The results show that 11 kinds of railway gauge structures exist in Eurasia, which respectively belong to three types of wide-gauge, standard-gauge, and narrow-gauge, but the mainstream gauge only includes 1520 mm, 1435 mm and 1067 mm. Considerable variation in the coverage length and space range of different gauges is apparent, which provides a physical and technological basis for railway system differentiation and network fragmentation, which leads to the formation of eight railway geo-systems. Due to different modes for railway transport management in different geographical locations, the geographical pattern and geographical relationship of four transport organizations are formed. What especially important is the emergence of “1435 gauge space” and “1520 gauge space”, as well as the railway geo-space confrontation between them, on the Eurasian continent. Besides, we also find that the railway geo-system of Eurasia is mainly affected by the technology dissemination, path dependence, geopolitics, national defense and the colonial expansion of military latitude, and on this basis, five geo-modes of railway gauge propagation are formed.

Published

2020

19. Review of Track Gauge for Trans-Sumatera Railway Revitalization and Development

Author

Prasadja Ricardianto, Soemino Eko Saputro, Primadi Candra Susanto, and Haniva Mulyani

Subjects

Transport engineering, Engineering, business.industry, SAFER, Gauge (instrument), International standard, Benchmarking, Performance indicator, Track (rail transport), business, Track gauge

Abstract

The aim of this research is to comprehend in details how revitalization and development of railway infrastructure on the Trans-Sumatera line in Sumatera Island. The main problem in this research is that the use of railways in Sumatera Island is neither sustainable nor in all provinces. This research is both meta-analytical, by exploring the existing journals, and factual as a phenomenon in the utilization of spoor width that happens in the world today. It is completed by parameter or performance indicators as for benchmarking with other countries. From the result of this research, the data shows that almost 60 percent of existing railway tracks around the world have been installed with standard gauge of 1,435 mm and have been international standard. The benefit of this study is that the leaders or decision makers can take it into account to support the future transportation in Sumatera Island which must be oriented to bigger, faster, safer, cleaner, cheaper, affordable, and leisure. To keep exploiting the existing railway or track can be done by developing construction equipment of track gauge adjuster to change the wheel gauge from 1,435 mm to 1,067 mm. Subsequently re-gauging is done in stages, changing the track gauge from narrow gauge of 1,067 mm to standard gauge of 1,435 mm.

Published

2020

20. Разработка подхода к геометрическому моделированию железнодорожных путей на криволинейных участках

Subjects

отвод возвышения наружного рельса, криволінійна ділянка, curvilinear section, track gauge, залізничний шлях, outer rail elevation retraction, відвід підвищення зовнішньої рейки, криволинейный участок, ширина колії, железнодорожный путь, railroad track, ширина колеи

Abstract

This paper proposes an approach to arranging curvilinear sections of the railroad track, which involves the replacement of two transitional ones and a circular curve with one curvilinear section. Modeling this section implies the construction of a curve in the plan and profile, the joint consideration of which forms the spatial appearance of the curve, which ensures a smooth transition between the rectilinear rails. The need for such transitions is due to the terrain, the need to bypass settlements, and the presence of geological, geographical, and other obstacles that occur when laying railroads. A curvilinear section is modeled in the plan using a curve that is represented in natural parameterization under the law of curvature distribution in the form of a fifth-power polynomial. At the same time, at the start and end points of the section, the curvature and its derivative accept zero values. The outer rail elevation retraction (modeling in the profile) is performed using the curve built, whose sections are also represented in natural parameterization with the dependences of the curvature distribution on the arc length in the form of fourth-power polynomials. At the docking point of the sections, the third order of smoothness is ensured, which implies the equality of values of the functions, their derivatives, the curvature, and a derivative of the curvature from the length of its natural arc. Measures have been proposed to ensure the predefined track gauge retraction. The application of the proposed approach to model a railroad track along the curvilinear section with a variable-radius curve could make it possible to achieve a favorable curvature distribution, a smooth elevation retraction of the outer rail and the track gauge. That would consequently improve the safety of rolling stock running along the curvilinear section of the track, reduce the lateral and vertical efforts that predetermine the wear of rails and wheelsets., Предлагается подход к конструированию криволинейных участков железнодорожного пути, предусматривающий замену двух переходных и круговой кривой одним криволинейным участком. Моделирование этого участка предполагает построение кривой в плане и профиле, совместное рассмотрение которых формирует пространственный вид кривой, обеспечивающий плавный переход между прямолинейными рельсами пути. Необходимость подобных переходов обусловливается рельефом местности, потребностью обхода населенных пунктов и наличием геологических, географических и других препятствий, которые встречаются при прокладке железнодорожных путей. Моделирование криволинейного участка в плане выполняется с применением кривой, которая представляется в натуральной параметризации с законом распределения кривизны в виде полинома пятой степени. При этом в начальной и конечной точках участка кривизна и ее производная имеют нулевые значения. Отвод возвышения наружного рельса (моделирование в профиле) выполняется с применением составной кривой, участки которой также представляются в натуральной параметризации с зависимостями распределения кривизны от длины дуги в виде полиномов четвертой степени. В точке стыковки участков обеспечивается третий порядок гладкости, предусматривающий равенство значений функций, ее производных, кривизны и производной кривизны от длины собственной дуги. Предложены меры по обеспечению заданного отвода ширины пути. Применение предлагаемого подхода к моделированию железнодорожного пути на криволинейном участке кривой переменного радиуса позволит получить благоприятное распределение кривизны, плавный отвод возвышения наружного рельса и ширины пути. В итоге это повысит безопасность прохождения подвижного состава по криволинейному участку пути, уменьшит боковые и вертикальные усилия, обусловливающие износ рельсов и колесных пар, Пропонується підхід до влаштування криволінійних ділянок залізничного шляху, який передбачає заміну двох перехідних і кругової кривої однією криволінійною ділянкою. Моделювання цієї ділянки передбачає побудову кривої в плані та профілі, сумісний розгляд яких формує просторовий вигляд кривої, яка забезпечує плавний перехід між прямолінійними рейками шляху. Необхідність подібних переходів обумовлюється рельєфом місцевості, потребою обходження населених пунктів та наявністю геологічних, географічних та інших перешкод, які зустрічаються при прокладанні залізничних шляхів. Моделювання криволінійної ділянки в плані виконується із застосуванням кривої, яка подається в натуральній параметризації із законом розподілу кривини у вигляді поліному п’ятого степеня. При цьому в початковій та кінцевій точках ділянки кривина та її похідна мають нульові значення. Відвід підвищення зовнішньої рейки (моделювання в профілі) виконується із застосуванням складеної кривої, ділянки якої також подаються у натуральній параметризації із залежностями розподілу кривини від довжини дуги у вигляді поліномів четвертого степеня. У точці стикування ділянок забезпечується третій порядок гладкості, який передбачає рівність значень функцій, її похідних, кривини та похідної від кривини від довжини власної дуги. Запропоновані заходи для забезпечення заданого відводу ширини колії. Застосування пропонованого підходу до моделювання залізничного шляху на криволінійній ділянці кривою змінного радіуса дозволить отримати сприятливий розподіл кривини, плавний відвід підвищення зовнішньої рейки та ширини колії. У підсумку це підвищить безпеку проходження рухомого складу по криволінійній ділянці шляху, зменшить бічні та вертикальні зусилля, які обумовлюють знос рейок і колісних пар

Published

2022

21. Devising an approach to the geometric modeling of railroad tracks along curvilinear sections

Author

Valeriy Borisenko, Serhiy Ustenko, and Iryna Ustenko

Subjects

Control and Systems Engineering, curvilinear section, Applied Mathematics, Management of Technology and Innovation, Mechanical Engineering, track gauge, Energy Engineering and Power Technology, outer rail elevation retraction, Electrical and Electronic Engineering, Industrial and Manufacturing Engineering, railroad track, Computer Science Applications

Abstract

This paper proposes an approach to arranging curvilinear sections of the railroad track, which involves the replacement of two transitional ones and a circular curve with one curvilinear section. Modeling this section implies the construction of a curve in the plan and profile, the joint consideration of which forms the spatial appearance of the curve, which ensures a smooth transition between the rectilinear rails. The need for such transitions is due to the terrain, the need to bypass settlements, and the presence of geological, geographical, and other obstacles that occur when laying railroads. A curvilinear section is modeled in the plan using a curve that is represented in natural parameterization under the law of curvature distribution in the form of a fifth-power polynomial. At the same time, at the start and end points of the section, the curvature and its derivative accept zero values. The outer rail elevation retraction (modeling in the profile) is performed using the curve built, whose sections are also represented in natural parameterization with the dependences of the curvature distribution on the arc length in the form of fourth-power polynomials. At the docking point of the sections, the third order of smoothness is ensured, which implies the equality of values of the functions, their derivatives, the curvature, and a derivative of the curvature from the length of its natural arc. Measures have been proposed to ensure the predefined track gauge retraction. The application of the proposed approach to model a railroad track along the curvilinear section with a variable-radius curve could make it possible to achieve a favorable curvature distribution, a smooth elevation retraction of the outer rail and the track gauge. That would consequently improve the safety of rolling stock running along the curvilinear section of the track, reduce the lateral and vertical efforts that predetermine the wear of rails and wheelsets.

Published

2022

22. OPERATIONAL RESEARCHES OF TRACK GAUGE AND POSITIONS IN THE TERMS OF SWITCH LATERAL DIRECTION

Author

V. V. Rybkin and K. L. Kalenyk

Subjects

lateral direction of switch, track gauge, direction in plan, Transportation engineering, TA1001-1280

Abstract

The results of operational research of lateral direction of switches of type P65 mark 1/11-1/9 on reinforced concrete bars on the track gauge and the direction in plan are presented in the article. The characteristic parts of the lateral direction in terms of the influence of geometrical position on the interaction with rolling stock are determined.

Published

2010

23. Metric track gauge intercity railway networks

Author

Christos N. Pyrgidis

Subjects

Computer science, Metric (mathematics), Topology, Track gauge

Published

2021

24. Stochastic Technical Stability Test of a Passenger Railroad Car Crossing a Turnout

Author

Jerzy Kisilowski and Elżbieta Kowalik-Adamczyk

Subjects

Lyapunov function, Technology, Control and Optimization, Computer science, Energy Engineering and Power Technology, 02 engineering and technology, Track (rail transport), Stability (probability), Vehicle dynamics, symbols.namesake, 0203 mechanical engineering, Control theory, Electrical and Electronic Engineering, rail, Engineering (miscellaneous), Track gauge, stability, wheel–rail, vehicle-track, vehicle dynamics, Renewable Energy, Sustainability and the Environment, 020302 automobile design & engineering, 021001 nanoscience & nanotechnology, Nonlinear system, Transverse plane, symbols, Trajectory, 0210 nano-technology, Energy (miscellaneous)

Abstract

This article presents a definition of stochastic technical stability that was applied to test a mathematical model of a passenger railroad car crossing a turnout with the speed exceeding 160 km/h. Stability defined in this way allows testing of Lyapunov’s stability with disturbances from the track and for a nonlinear system. The STS test of a nonlinear mathematical model of a passenger car was carried out by perturbing the motion of the mathematical model with irregularities originating from the track gauge change and wheelset motion in the direction transverse to the track axis. The main aim of this paper was to determine the influence of various factors and technical conditions on the assessment of the stability of various means of transport. The analysis presented can be used to assess the dynamics of electric vehicles, whose mechanical parameters differ from those of combustion vehicles at present. The area of stable motion in the Lyapunov sense was defined using the STS method. Simulations were performed to determine the trajectory of the wheelset transverse motion. The probability of finding the wheelset in the stable motion area in relation to the rail for a single-point contact was determined. In practice, this is a one-point contact of the wheel with the rail. Conclusions from the conducted research are presented.

Published

2021

25. TRACK GAUGE STABILITY UNDER EFFECT OF SLEEPER THERMAL EXPANSION

Author

Vít Lojda and Hana Krejčiříková

Subjects

Materials science, lcsh:TA1-2040, business.industry, Limit (music), General Engineering, sleeper, polymer, track gauge, thermal expansion, Structural engineering, Advanced materials, lcsh:Engineering (General). Civil engineering (General), business, Stability (probability), Track gauge, Thermal expansion

Abstract

Railway sleepers are traditionally made of hardwood, pre-stressed concrete or steel. However, emerging advanced materials, including polymers or composites, are investigated for a possible employment in the sleeper production. The main function of sleepers is to distribute forces they carry onto the trackbed, to support rails and keep the spacing between them, called the track gauge. The operating tolerance of the track gauge is critical for safety and is set by regulations. Generally, it is advisable to keep the track gauge deviation, as well as the sleeper length deviation influencing it, as low as reasonably practicable. In this article, the recommended limit values of the thermal expansion coefficient characterizing possible sleeper length deviation were evaluated. The recommendation considered allowed track gauge tolerance and the experimentally determined temperatures of a sleeper measured in the trackbed for a year. In addition, thermal expansion of a selected polymer in laboratory conditions was determined, representing an alternative material for the sleeper production. Consequently, it was compared with the limit and conservatively used materials. Furthermore, the same tested polymer, but utilizing chopped glass fibres to reduce the thermal expansion of the polymer, was also tested. Results show a positive impact of the glass reinforcement on the thermal expansion coefficient. The applicability of the selected polymer in the railway sleeper production from the perspective of the thermal expansion was discussed in the paper.

Published

2019

26. June 2019 Land Transportation News [Transportation Systems]

Author

Harvey Glickenstein

Subjects

Loop (topology), business.industry, Rail transportation, Public transport, Gauge (instrument), Automotive Engineering, Clockwise, business, Geodesy, Metropolitan area, Geology, Track gauge

Abstract

Stadler, in a consortium with Ansaldo STS, publicly revealed the first of 17 new vehicles for Glasgow, the smallest-diameter public transit subway in the world (Figure 1). Dating back to 1896, Glasgow Subway is the third-oldest underground metropolitan network in the world, after London and Budapest. It operates solely within its original tunnels, with a 4-ft track gauge and tunnel gauge of just over 11 ft in diameter. The tunnels comprise twin running circles, each 6.5 mi in length. The 15 stations on the network are arranged in two single loops, with a clockwise and a counterclockwise loop.

Published

2019

27. An alternative procedure to measure railroad track irregularities. Application to a scaled track

Author

José L. Escalona, Javier F. Aceituno, Sergio Muñoz, and Rosario Chamorro

Subjects

Measure (data warehouse), Computational model, Computer science, Applied Mathematics, System of measurement, 020208 electrical & electronic engineering, 010401 analytical chemistry, Full scale, Total station, ComputerApplications_COMPUTERSINOTHERSYSTEMS, 02 engineering and technology, Condensed Matter Physics, Track (rail transport), 01 natural sciences, 0104 chemical sciences, 0202 electrical engineering, electronic engineering, information engineering, Track geometry, Electrical and Electronic Engineering, Instrumentation, Algorithm, Track gauge

Abstract

In this paper an alternative procedure to accurately measure static railroad track irregularities is proposed and applied to a scaled railroad track. The purpose of this work is the determination of highly-precise measured data in short track segments that needs to be used as input in the validation of railroad computational models that are used for on-board railroad track measurement systems. The procedure consists of the use of a topographic total station combined with a postprocessing of the measured data that reduces misalignment errors and provide the analytical ideal geometry of the track together with its irregular geometry characterized in terms of the magnitudes of track gauge, vertical profile, alignment and cross level. Experimental results are compared to standard magnitudes of full scale tracks showing that real track geometry can differ from PSD-based predicted one. This supports the application of the proposed procedure for an accurate geometric determination of short track segments.

Published

2019

28. Prediction of tram track gauge deviation using artificial neural network and support vector regression

Author

Samira Cheraghi, Sara Moridpour, Majidreza Nazem, and Amir Falamarzi

Subjects

Artificial neural network, Computer science, 0211 other engineering and technologies, 020101 civil engineering, 02 engineering and technology, 0201 civil engineering, Support vector machine, Control theory, Gauge (instrument), 021105 building & construction, medicine, Tram track, medicine.symptom, Gradual increase, Track gauge, Civil and Structural Engineering

Abstract

Along with increase in tram traffic, gradual increase in gauge deviation is inevitable. Excessive track gauge is considered as an effective parameter in aggravating the quality of ride as well as t...

Published

2019

29. Innovative solution for experimental research of phenomena resulting from the wheel and rail rolling

Author

Tomáš Lack, Peter Strážovec, Jozef Harušinec, and Juraj Gerlici

Subjects

050210 logistics & transportation, Computer science, 05 social sciences, 0211 other engineering and technologies, Mechanical engineering, 02 engineering and technology, General Medicine, Experimental research, Action (philosophy), Position (vector), Need to know, 021105 building & construction, 0502 economics and business, Actuator, Euler force, Track gauge

Abstract

For real operational needs, you need to know what happens when interacting with investigated devices. Therefore, some tests need to be performed under isolated laboratory conditions, where marginal conditions can be modeled more accurately than in operation. The laboratory environment is independent of weather conditions. What is, however, in real operation achieved by the shape of the device (track gauge) and driving conditions (speed, transverse acceleration) is required in laboratory conditions by actuators and force members. As an example, an action member for changing the axial position of the rotating rail can be mentioned. This was done because of the inadequate results due to the wear of the worm gearbox.

Published

2019

30. Průjezd tramvajového dvojkolí jednoduchou a dvojitou srdcovkou s hlubokými žlábky v různých provozních podmínkách

Author

Kalinčák, Daniel, Hába, Aleš, Zelenka, Jaromír, Němec, Karel, Kalinčák, Daniel, Hába, Aleš, Zelenka, Jaromír, and Němec, Karel

Abstract

Příspěvek se zabývá vzájemným vztahem dvojkolí a koleje při průjezdu oblastí jednoduché i dvojité srdcovky u konstrukcí s hlubokými žlábky, tedy v případě, kdy příslušné kolo nepojíždí v oblasti srdcovky po okolku. V rámci analýzy byl proveden početní i grafický rozbor nejméně příznivých poloh dvojkolí v koleji s ohledem na vedení dvojkolí přídržnicemi, a to pro jízdní obrysy používané v tramvajovém provozu u dopravních podniků v Brně a Ostravě. Uvedená problematika je v současné době aktuální z důvodu požadavku na zvyšování rychlosti tramvajového provozu v okrajových částech měst i při průjezdu výhybkami., The paper deals with wheelset-track interaction in the course of passing over single as well as double crossings of low grooves, in case when the appropriate wheel does not roll by the flange in the crossing area. The contribution contents calculus and graphical analyses of the most unfavourable wheelset position in a track with respect to guiding of the wheelset by checkrails. These analyses take into account the tram wheel profiles used in operation of transport companies in cities Brno and Ostrava. The presented topic is actual due to the requirement of the tram operation speed increasing at the tracks out of the city centre also in case of passing over turnouts.

Published

2020

31. Visual Measurement System for Wheel–Rail Lateral Position Evaluation

Author

Gintautas Bureika, Dachuan Shi, Stefano Ricci, Viktor Skrickij, Eldar Šabanovič, and Luca Rizzetto

Subjects

Inertial frame of reference, track geometry, Computer science, lateral displacement of the wheelset, 02 engineering and technology, Track (rail transport), lcsh:Chemical technology, Biochemistry, Article, Field (computer science), Analytical Chemistry, 0203 mechanical engineering, 11. Sustainability, 0202 electrical engineering, electronic engineering, information engineering, Track geometry, lcsh:TP1-1185, Electrical and Electronic Engineering, Instrumentation, Simulation, Track gauge, Measure (data warehouse), System of measurement, 020208 electrical & electronic engineering, 020302 automobile design & engineering, image processing, in-service trains, railway, track gauge measurement, Atomic and Molecular Physics, and Optics, ddc:620

Abstract

Railway infrastructure must meet safety requirements concerning its construction and operation. Track geometry monitoring is one of the most important activities in maintaining the steady technical conditions of rail infrastructure. Commonly, it is performed using complex measurement equipment installed on track-recording coaches. Existing low-cost inertial sensor-based measurement systems provide reliable measurements of track geometry in vertical directions. However, solutions are needed for track geometry parameter measurement in the lateral direction. In this research, the authors developed a visual measurement system for track gauge evaluation. It involves the detection of measurement points and the visual measurement of the distance between them. The accuracy of the visual measurement system was evaluated in the laboratory and showed promising results. The initial field test was performed in the Vilnius railway station yard, driving at low velocity on the straight track section. The results show that the image point selection method developed for selecting the wheel and rail points to measure distance is stable enough for TG measurement. Recommendations for the further improvement of the developed system are presented., This article belongs to the Special Issue Data Acquisition and Processing for Fault Diagnosis, The research was funded by the EU Shift2Rail project Assets4Rail (grant number: 826250) under the Horizon 2020/Shift2Rail Framework Programme.

Published

2021

32. Track gauge monitoring scope optimization on small urban railway systems

Author

Stjepan Lakušić, Maja Ahac, Igor Majstorović, and Lakušić, Stjepan

Subjects

Scope (project management), Computer science, track geometry, track gauge, monitoring scope, sampling distance, urban railway system, Construction engineering, Track gauge

Abstract

Urban transport plays a key role in the sustainable development of large cities. Urban railway systems, as eco-friendly mass transport systems, are becoming the basis of urban traffic development. Maintaining a high-quality service with continuously increasing traffic demand places an additional burden on public transport operators. Track geometry control has a major impact on availability and maintenance costs of public transport. Good management of rail infrastructure involves continuous monitoring of track geometry (track gauge, cant, twist, horizontal and vertical irregularities) where surveying should be done up to several times a year. Measuring of track geometry in chosen track cross-sections can be done automatically with relatively expensive equipment, or manually which is cheaper but takes longer. Therefore, the question arose as to whether it is possible on small urban railway networks to reduce monitoring scope by increasing of sampling distance, and if so, what should be recommended sampling distance. This paper presents, on the example of the City of Osijek tramway system, how changes in sampling distance effects on track gauge parameter. The results of the conducted analyses are presented and discussed. The recommendations on track gauge monitoring scope optimization on small urban networks are made.

Published

2021

33. Study of loaded versus unloaded measurements in railway track inspection

Author

Nasir Farsad Layegh, Haoyu Wang, Jos Berkers, and Nick van den Hurk

Subjects

Computer science, ComputerApplications_COMPUTERSINOTHERSYSTEMS, 02 engineering and technology, Track (rail transport), 01 natural sciences, Automotive engineering, Track geometry car, Digital copy, Track longitudinal level, 0202 electrical engineering, electronic engineering, information engineering, Track geometry, Electrical and Electronic Engineering, Instrumentation, Track gauge, Measurement method, Applied Mathematics, Numerical analysis, 020208 electrical & electronic engineering, 010401 analytical chemistry, Mobile track inspection system, Condensed Matter Physics, Experimental research, 0104 chemical sciences, Axle, Unloaded measurement

Abstract

To ensure railway operations safe, track geometry parameters, e.g., track gauge, are usually inspected using track geometry cars. The measurement frequency of track geometry cars is low (twice per year) due to high operational costs and track possession. An innovative way to perform track inspection at high frequency and affordable cost is using mobile track inspection systems, which can be easily mounted on passenger or freight trains. Besides track geometry, it also creates a digital copy of railway corridors providing asset managers with the ability to make fully informed decisions on track assets. Differently, the collectors of mobile systems are further away from the axle than track geometry cars, which are regarded as unloaded and loaded measurement respectively. This difference may lead to a discrepancy in measurement results. This paper studies the difference between loaded and unloaded measurements, using experimental and numerical methods. In the experimental research, a section of track was measured using both systems. The track longitudinal level measured using unloaded and loaded methods were compared, and the discrepancy reported. It was found that although the measuring distance can cause discrepancies, the unloaded measurement method still meets the measurement requirement. The largest discrepancies are in track transition zones, which is explained using the numerical method. After that, a case study using the unloaded measurement method is presented, wherein a section of track has been measured every month. The results show the advantages of frequent measurements in track inspections and the potential applications of unloaded track inspections.

Published

2021

34. Technical and Operational Feasibility, for the business analysis, of running an Autopista Ferroviaria with Iberian track gauge between Port of Algeciras and Zaragoza-Plaza

Author

Emilio Larrodé and Jaime Escobar de la Iglesia

Subjects

Engineering, business.industry, Business analysis, business, Civil engineering, Port (computer networking), Track gauge

Abstract

The aim of this study is to evaluate the feasibility to run an Autopista Ferroviaria (AF) with Iberian track gauge from a technical and operational point of view in order to analyse the business model in the short term

Published

2020

35. Sensitivity analysis of simulation model on railway rolling noise prediction.

Author

Jiang, Shijie and Meehan, Paul A.

Subjects

SIMULATION methods & models, COMPUTER software, CONTACT mechanics, MATHEMATICAL models, RAILROAD gauges

Abstract

The railway rolling noise prediction software (RRNPS) is a simulation model for predicting the sound pressure levels during a train passage due to wheel/rail roughness, based on vibration dynamics, contact mechanics and sound radiation modules. Some field validation has been done under European and Australian conditions. Comparisons between simulations and measurements have shown that this software model gives reliable predictions in terms of overall A-weighted sound pressure level and noise spectrum. In this paper, based on a typical railway rolling noise situation in Australia (a series of field measurements were taken at a narrow track gauge testing site), a sensitivity analysis of the RRNPS was carried out to investigate the effect of train speed, normal load, sleeper spacing, rail pad stiffness, track gauge and rail cross receptance factor on railway rolling noise. The results provide some insight into model-based methods to control and mitigate railway noise at its source. [ABSTRACT FROM AUTHOR]

Published

2014

36. Analysis and Prediction of Time Series Geometric Parameters of Groove Rail Based on Big Data Technology

Author

He Zhichao, Xie Yongjun, Fang Liu, Hao Feng, Liu Yutong, Yu Bai, and Deng Jinyi

Subjects

Artificial neural network, Computer science, business.industry, Limit (music), Rail inspection, Big data, Track (rail transport), business, Groove (engineering), Preventive maintenance, Automotive engineering, Track gauge

Abstract

In recent years, modern trams have developed rapidly and groove rails are mainly used for tramway tracks. Whether their geometric parameters exceed the limit is related to the safety of train operation. In addition, the health of the grooved rail also affects the service life of the rail equipment. Therefore, track maintenance activities play an important role in maintaining the health of track equipment, extending its service life, and operating safety of railways. With the previous research, we have developed a rail inspection trolley based on the inertial reference method, and it can achieve high-precision detection of geometric parameters of groove rails. On this basis, this paper proposes a set of prediction algorithms based on RBF radial basis neural network. It can accurately predict the change trend of geometric parameters such as track gauge, abrasion, track longitudinal level irregularity and track direction, so as to further analyze the detection data and explore its inherent value, providing a more scientific basis for the preventive track maintenance.

Published

2020

37. Movement of the wagon on the marshalling hump under the impact of air environment and tailwind

Author

Shukrat Saidivaliev, Andrej Gordienko, Khabibulla Turanov, and Shukrat Djabborov

Subjects

lcsh:GE1-350, Movement (music), Computer science, 0211 other engineering and technologies, Relative velocity, Sorting, 02 engineering and technology, Aerodynamics, Marshalling, 020303 mechanical engineering & transports, 0203 mechanical engineering, Tailwind, 021105 building & construction, Absolute velocity, Track gauge, lcsh:Environmental sciences, Marine engineering

Abstract

The effect of the tailwind on the wagon when it is rolling down from the hump. Study of the movement of the wagon on the profile of the marshalling hump. To provide an incorrect formula for determining the relative velocity and air particles, taken as the absolute velocity of the particles. The article applies the theorem on the addition of velocities in complex motion in vector form. Mathematical substantiated errors in the determination of the specific resistance to movement of the wagon from the air medium and wind, derived from the empirical relationships given the aerodynamic performance of the wagons. The results of the research can be used in the processing of the normative-technical document on the design of hump devices on railways and making adjustments to the dynamics of rolling the wagon in textbooks for universities of railway transport. The results of this study prove the need to revise the practical significance of the formula for finding the specific resistance to the movement of the car from the air and wind in the in the normative-technical document “Rules and regulations for the design of sorting devices on the railways track gauge 1 520 mm ”.

Published

2020

38. A Study on the Correlation Between Measured Track Irregularities and Vehicle Responses in High-Speed Lines

Author

Zilong Wei, Bo Zhang, Xiubo Liu, and Ma Shuai

Subjects

Physics, Correlation, Wavelength, Acceleration, Acoustics, Track (disk drive), Correlation analysis, Transfer function, Track gauge

Abstract

In this study, a correlation analysis is conducted between measured track irregularities and vehicle responses. For this purpose, four track irregularity types, namely track gauge, longitudinal level, super-elevation and track alignment, and the vertical/lateral acceleration of carbody are recorded using high-speed comprehensive inspection train. The results indicates that vertical carbody acceleration is dominated by the irregularity of longitudinal level, and can be affected by the irregularity of super-elevation (with the wavelengths above 50 m). The lateral carbody acceleration is largely influenced by the irregularity of track alignment (with the wavelength above 30 m) and super-elevation (with the wavelength above 10 m). Yet, vehicle responses are seldom influenced by the irregularity of track gauge. Using transfer function, VCA can be well predicted at the wavelengths above 10 m, and LCA can be well predicted at the wavelengths above 50 m.

Published

2020

39. A Prototype of Track Gauge and Cant Measurement Device for Curved Railroad by Using Microcontroller

Author

Wahyu Tamtomo Adi, Septiana Widi Astuti, Dwi Samsu Al Musyafa, and Rony Alvin Alfatah

Subjects

Microcontroller, Arduino uno, Measurement device, business.industry, Computer science, Electrical engineering, business, Cant (architecture), Track gauge

Published

2020

40. Complex eigenvalue analysis and parameters analysis to investigate the formation of railhead corrugation in sharp curves

Author

Elias Kassa, C. Wan, O. El Beshbichi, and Stefano Bruni

Subjects

Materials science, Creep forces saturation, 02 engineering and technology, Surface finish, Self-excited vibrations, Instability, 0203 mechanical engineering, Railhead, Wheelset-track system, Normal mode, Materials Chemistry, Track gauge, Complex eigenvalue analysis, Surfaces and Interfaces, Mechanics, rutting corrugation, Physics::Classical Physics, 021001 nanoscience & nanotechnology, Condensed Matter Physics, Finite element method, Surfaces, Coatings and Films, Vibration, 020303 mechanical engineering & transports, Creep, Mechanics of Materials, 0210 nano-technology

Abstract

Rail corrugation, a quasi-sinusoidal irregularity of the rail head, is a common issue experienced throughout the railway networks worldwide. It generally leads to high wheel-rail dynamic loads, increased noise emission, and poor ride comfort. Most commonly, rail corrugation is likely to develop on sharp curves. This paper aims to study the numerical feasibility of the prediction of self-excited vibrations for the study of rutting corrugation formation without excitation from initial rail roughness. A finite element model for the prediction of the self-excited vibrations of the leading wheelset-rails system in a sharp curve has been developed in ABAQUS. The friction coupling between the wheel and rail is taken into account. It is assumed that the lateral creep forces between wheel and rail are quasi-saturated. The proposed model is applied to investigate the effect of several structural factors on self-excited vibrations occurrence. The obtained numerical results match closely with the typical wavelength of rutting corrugation observed in the field sites and the experimental evidence on rutting corrugation. It has been found out that the interaction effect of the wheelset cross-section and the track gauge has a significant influence on self-excited vibrations. For a typical European wheelset cross-section, self-excited vibrations only occurred under the widened track gauge. For the studied Chinese wheelset, self-excited vibrations occurred, however, only under the standard track gauge. Therefore, following the assumptions underlying the analysis, wheelset cross-section might be an inhibitor factor at a particular track gauge. A parameter sensitivity analysis shows that the friction coefficient is linearly correlated with the system's instability and the frequency of the unstable modes of vibration.

Published

2020

41. Influence of the parameters of the car wheel flanges on the safety operation in turnouts

Author

B. E. Glyuzberg

Subjects

Computer science, business.industry, Generatrix, Train, Structural engineering, Connecting rod, business, Track gauge

Abstract

The article study conditions for the passage of wheelsets along turnouts from the point of view of ensuring traffic safety. The norms and tolerances for geometric dimensions in the “wheelset - rail gauge” system are interrelated. Proceeding from this interrelation, an analysis is performed on the probability of occurrence of adverse events in the passage through the turnouts of wheelsets having flanges with different wear values. The thickness of the flanges of the car wheels has a great influence on the safe passage by the rolling stock on the allocated switch point. When wheels is running on allocated point, disorders occurred in track gauge, tongue gapping to the stock rail, and in the case of frequent repetition of these phenomena - even bends and breaks in connecting rods directly threaten the safety of driving on turnouts. Within one article, it is impossible to consider all the features of the movement of rolling stock in turnouts. As an example, conditions for the passage of a wheelset through a frog unit are considered. It can be seen from the materials presented in the article that the current normative base of the geometric dimensions of the “wheelset - rail gauge” system is justified by the result of extensive and comprehensive scientific research. The experience of several decades of operation is confirmed by the fact that this regulatory framework provides for the transportation process and the safety of the movement of trains in turnouts. Introduction of changes in the “wheelset - rail gauge” measuring system should be based on analysis of the actual state of wheel sets and the parameters of the track gauge in turnouts. In particular, in order to determine the possibility of changing the rejection size of the minimum thickness, it is necessary:• to conduct mass measurements of wheelsets and turnouts in operation; to perform processing of the obtained data with the identification of dependencies between different combinations of sizes, including relations between the thickness of the flange and the slope of its generatrix; to perform dynamic-strength tests to determine the dependence of stresses and deformations of the elements of the switches during the passage of wheelsets with different thicknesses and angles of inclination of the flanges; to reveal the available opportunities for changes in the “wheelset - rail gauge” measuring system, taking into account the durability and reliability of switch points; to develop a new methodology for calculating the adverse events that occur during wheelsets passage along the turnouts.

Published

2018

42. An analytical model for the prediction of thermal track buckling in dual gauge tracks

Author

Pablo Martínez, Ignacio Villalba Sanchis, Ricardo Insa, and Pablo Salvador

Subjects

Continuous welded rail, business.industry, Computer science, Mechanical Engineering, Principal (computer security), 020302 automobile design & engineering, 02 engineering and technology, Structural engineering, Track buckling, Gauge (firearms), Track (rail transport), Analytical model, INGENIERIA E INFRAESTRUCTURA DE LOS TRANSPORTES, Dual (category theory), 020303 mechanical engineering & transports, 0203 mechanical engineering, Buckling, Dual gauge, Thermal, Train, business, Rail temperature, Track gauge, Ballast resistance

Abstract

In rail transport, track gauge is one of the principal factors that condition the passage of trains. For technical and economic reasons, in some circumstances it is necessary to build and operate the so-called dual gauge track, in which a third rail is added to allow operation of trains in two separate gauges. Although the problem of lateral buckling of rail tracks under thermal loading has been well researched, the addition of the third rail increases the steel area subjected to thermal loads, and thus requires a more accurate analysis. The objective of this paper is to develop an analytical model to analyse the lateral buckling under thermal loads on dual gauge tracks. An in-depth analysis of the effects of the thermal track buckling response produced by each fundamental parameter is presented and discussed. It is found that the risk of buckling is more in dual gauge tracks when compared with the conventional tracks. Finally, this model establishes a mechanism that can be used to perform a more effective infrastructure management policy.

Published

2018

43. On the need to control the gauge easement of the natural unevenness of the rail threads in plan in the curved sections of the track

Subjects

Stock dynamics, Safety factor, Mathematical analysis, Easement, Thread (computing), Software package, Track gauge, Mathematics

Abstract

The article is devoted to the problems of analysis and evaluation of the track condition in the plan. The width of the track and, correspondingly, the gauge easement, characterizing the smoothness of the change in track width, are the values determined as the difference in position of the two rail threads in the plan. The shortcomings of gauge easement in the evaluation of the track in curves are considered. The modeling of the empty rolling stock dynamics was performed in the “Universal Mechanism” software package (motion in a shallow curve with speeds from 20 to 90 km/h). The real values of the actual unevenness of the rail threads are taken as a disturbing signal, obtained from the track-meter data with a regular check of the track condition, which are the result of calculating the outlines of the horizontal rail unevenness from the measured rise values. The output of the modeling is the value of the safety factor ( К уст ), which should not fall below the value 1.2 in order to comply with the safety conditions for handling the rolling stock along the track. The article provides the К уст dependencies of the empty gondola car on the size of the gauge easement of the natural unevenness of the rail threads in the plan at various speeds of motion in a shallow curve based on the results of the modeling. It is shown that the gauge easement due to the multivariate combination of the position of the inner and outer rail lengths in the curves is not a parameter that uniquely characterizes the geometry of the track gauge in the curves. Authors substantiate the necessity of amending the “gauge easement” parameter with the parameters of the irregularities in the plan of each rail thread.

Published

2018

44. A recommender system for train routing: When concatenating two minimum length paths is not the minimum length path

Author

Alberto García-Álvarez, Antonio Hernando, and Eugenio Roanes-Lozano

Subjects

Computer science, InformationSystems_INFORMATIONSYSTEMSAPPLICATIONS, Applied Mathematics, Distributed computing, 05 social sciences, 050301 education, ComputerApplications_COMPUTERSINOTHERSYSTEMS, Graph theory, 010103 numerical & computational mathematics, Recommender system, 01 natural sciences, Computational Mathematics, Electrification, Path (graph theory), Graph (abstract data type), 0101 mathematics, Routing (electronic design automation), 0503 education, Dijkstra's algorithm, Track gauge

Abstract

In this paper, we propose a method for finding the optimal route for a specific train from a station to another one in the Spanish railway network (or any railway network involving different incompatible features like gauges, electrification and signaling systems). The complexity of the Spanish railway infrastructure makes it difficult to give an estimation of the fastest route of a train from a given station to another. Indeed, very unintuitive situations may happen. The problem of finding fastest routes is typically modeled by a graph where nodes represent stations and edges represent railway sections. However, this approach is not suitable for the Spanish railway network. In order to solve the problem of calculating the fastest routes, we will propose here a novel approach based on modeling the railway network through a different graph whose nodes represent railway sections.

Published

2018

45. Research on Mechanical Performance of Improved Low Vibration Track and Its Feasibility Analysis for Heavy-Haul Railway Applications

Author

Weidong Wang, Yu Yuan, Xianggang Du, Hu Ji, Li Shiye, Peng Guangzhao, Abdulmumin Ahmed Shuaibu, Zhiping Zeng, Guo Wuji, and Xiangdong Huang

Subjects

Ballast, Technology, QH301-705.5, Computer science, QC1-999, finite element method, Track (rail transport), law.invention, law, low-vibration track (LVT), Axle load, General Materials Science, Vertical displacement, Biology (General), improvement research, full-scale model, QD1-999, Instrumentation, Track gauge, Fluid Flow and Transfer Processes, Bearing (mechanical), business.industry, Physics, Process Chemistry and Technology, General Engineering, heavy-haul railway, Structural engineering, Engineering (General). Civil engineering (General), Finite element method, Computer Science Applications, Chemistry, Structural load, TA1-2040, business

Abstract

With the gradual increase of the cargo weight of heavy-haul trains, the traditional ballasted track with the accumulation of stone and ballast has been unable to meet its structural safety requirements. From the comparison of the three common ballastless tracks in China, it can be seen that the low-vibration track (LVT) has the advantages of reasonable structure, low cost, and easy maintenance. Therefore, the design and research of heavy-haul railways are focused on, and it is urgent to study the applicability of LVT in heavy-haul railways. Method: By improving the slope of the short side of the LVT support block, the support block has a better load bearing capacity, so as to achieve the purpose of bearing a larger axle load. Through 1:1 full-scale model test and finite element simulation, the static mechanical properties of Improved LVT (ILVT) and Traditional LVT (TLVT) are compared and analyzed. Result: Compared with TLVT, ILVT has smaller vertical displacement and track gauge changes when subjected to the same load. The proven and reliable finite element model also shows that ILVT’s load sharing is less affected. In the case of achieving the same deformation, ILVT can withstand greater vertical and lateral loads. Conclusions: Compared with the TLVT, the ILVT design can reduce the vertical displacement of the rail and the supporting block, better control the track subsidence, and improve the driving safety of the LVT. At the same time, ILVT improves the anti-overturning ability of the rail and support block under lateral load, reduces the expansion of the gauge and the lateral spacing of the support block, and improves the stability of the track structure. ILVT can also be considered for the weight of 40t and other large axle load, and has broad application prospects.

Published

2021

46. Geometry and stiffness optimization for switches and crossings, and simulation of material degradation.

Author

Nicklisch, D, Kassa, E, Nielsen, J, Ekh, M, and Iwnicki, S

Subjects

RAILROAD switches, RAILROAD crossings, ROLLING contact, STIFFNESS (Engineering), DEFORMATIONS (Mechanics), RAILROAD gauges, COST control

Abstract

A methodology for simulating wear, rolling contact fatigue, and plastic deformation for a mixed traffic situation in switches and crossings (S&C) has been developed. The methodology includes simulation of dynamic vehicle—track interaction considering stochastic variations in input data, simulation of wheel—rail contacts accounting for non-linear material properties and plasticity, and simulation of wear and plastic deformation in the rail during the life of the S&C component. To find means of improving the switch panel design, the geometry of a designed track gauge variation in the switch panel has been represented in a parametric way. For traffic in the facing and trailing moves of the through route, an optimum solution was identified and then validated by evaluating a wide set of simulation cases (using different wheel profiles). The optimum design includes a 12 mm maximum gauge widening. Several crossing geometries were investigated to find an optimal geometric design for the crossing nose and wing rails. The MaKüDe design showed the best performance for moderately worn wheel profiles in both running directions (facing and trailing moves). In connection with reduced support stiffness (e.g. elastic rail pads), this crossing design is predicted to lead to a significant reduction of impact loads and consequently provide a high potential of life-cycle cost reduction. [ABSTRACT FROM AUTHOR]

Published

2010

47. Time-dependent behaviours of railway prestressed concrete sleepers in a track system

Author

Ruilin You, Sakdirat Kaewunruen, and Dan Li

Subjects

business.industry, Computer science, General Engineering, Foundation (engineering), Structural engineering, Workmanship, Track (rail transport), law.invention, Axle, Prestressed concrete, Creep, law, General Materials Science, Train, business, Track gauge

Abstract

The main functions of railway sleepers are: (i) to safely transfer loads from wheel axles to foundation; (ii) to secure both rails ensuring correct track gauge at all time; and, (iii) to restrain movements of rails to control longitudinal creeps. In reality, railway industry can experience costly problems of railseat twists and tight gauges, for instance, due to time-dependent actions and poor workmanship. These problems prevent trains to navigate over tracks safely, effectively and quietly. They require additional, expensive maintenance activities much more frequently over time such as rail renewal, rail reprofiling/grinding, rail pad replacement, curve lubrication adjustment, etc. On this ground, it is very important to maintain the geometry and topological/dimensional stability of railway sleepers. The long-term geometric performance of sleepers can be significantly influenced by time-dependent actions and behaviours. The creep and shrinkage in prestressed concrete sleepers result in internal actions that is led to geometric deformation, which change the rail gauge and influence the safety and reliability of track components. Time-dependent behaviours also lead to increased complex internal stresses, which can cause cracking on prestressed concrete railway sleepers. The cracks stemming from creep and shrinkage can be observed in real life, at a certain time after construction, along the sleepers and near the fasteners such as anchorage, bolt holes, and web openings. In this study, unprecedented experimental and numerical investigations are conducted to evaluate time-dependent behaviours of full-scale prestressed concrete sleepers. An empirical calculation method is also introduced and the empirical results are compared with both experimental and numerical results. Insights into creep and shrinkage effects are highlighted in order to essentially aid predictive and preventative track maintenance, supporting the effective and efficient decision making of both (i) engineers and manufacturers and (ii) infrastructure managers and owners.

Published

2021

48. Brazil's rail freight transport: Efficiency analysis using two-stage DEA and cluster-driven public policies

Author

Dalmo Marchetti and Peter Wanke

Subjects

Economics and Econometrics, Operations research, Restructuring, business.industry, Strategy and Management, 05 social sciences, Geography, Planning and Development, Rail freight transport, Public policy, Management Science and Operations Research, Track (rail transport), Land transport, 0502 economics and business, Data envelopment analysis, Economics, 050207 economics, Statistics, Probability and Uncertainty, Monopoly, business, 050203 business & management, Industrial organization, Track gauge

Abstract

This paper uses Data Envelopment Analysis to assess the efficiency of Brazilian rail concessionaires between 2010 and 2014, when new competitive regulations were introduced. In a second stage, a Bootstrap Truncated Regression was used to test the significance of exogenous variables on concessionaire performance: main type of cargo, track gauge, railway operation type (shared infrastructure or monopoly), in order to address an important gap in the literature. Secondary data came from the National Land Transport Agency (ANTT). The findings have significance for broad-gauge track commodities transport, while shared-infrastructure operations had no significance on efficiency, despite regulator incentives. Well directed regulations must encourage concessionaires to increase efficiency, particularly through incentives for agricultural and mineral commodities carried on the broad-gauge track characteristic of North and Center-West Brazil. Public policies designed to boost cluster efficiency are presented, addressing options such as upsizing, downsizing and resizing inputs, restructuring, best management practices and infrastructure upgrades.

Published

2017

49. «Blagovist» Information Warning System for Railroad Crossings

Author

А.А. Mukha, S.D. Lutov, O.V. Gedz, N.V. Cespedes Garcia, and O.V. Fedukhin

Subjects

lcsh:HD45-45.2, Information Systems and Management, Warning system, Computer science, track gauge, ComputerApplications_COMPUTERSINOTHERSYSTEMS, information board, Computer security, computer.software_genre, information approach, Computer Science Applications, radio, Management of Technology and Innovation, railway crossing, lcsh:Technological innovations. Automation, controller, Law, Engineering (miscellaneous), computer

Abstract

The article deals with traffic safety at ground railway crossings. An approach based on raising driver awareness via modern means of automation, computation, and communication has been considered. Blagovist information warning system for the railway crossings has been described.

Published

2017

50. THE ROLE OF UKRAINIAN RAILWAY TRANSPORT IN MODERN LOGISTIC PROCESSES

Author

Lomotko, D. V., Prymachenko, H. O., and Hryhorova, Y. I.

Subjects

інтероперабельність, колія, логістичні системи, канали постачання, ComputerApplications_COMPUTERSINOTHERSYSTEMS, интероперабельность, колея, логистические системы, каналы поставок, interoperability, track gauge, logistic systems, supplies chains

Abstract

Purpose. As Ukraine actively develops its transport and logistics network taking into account the modern changes, the ever-increasing trade volume between the Europe and Asia, presents a good opportunity for increasing interoperability for the networks of international railway transportations. The study is aimed to consider in detail main components of railway interoperability and possible ways for achievement of their interaction. Methodology. The idea of interoperability was taken as a basis as a part of logistic system at railway. The crossing of different types of gauges was analyzed on the example of collaboration of Ukraine with European and Asian countries due to the increased freight traffic volume between them. Findings. Taking into account the basic technical parameters unifying the railway operation we found out the following principles: to agree upon a set of technical parameters, essential for the interoperability of the entire region; to determine the values and methods for agreement of the technical parameters to achieve technical interoperability; to decide on gradual implementation of technical interoperability, starting from the international corridors in a coordinated way depending on the priorities of international transportations. Originality. We considered the value of interoperability as a part of railway logistic systems. Practical value. The obtained results of search can be used during implementation of common platform of Ukraine`s collaboration with other countries related to the railway interoperability by establishing common base for work in prospective collaboration., Мета. Оскільки Україна активно розвиває свою транспортно-логістичну мережу з урахуванням сучасних змін, обсяг торгівлі між Європою й Азією, який постійно зростає, представляє гарну можливість підвищення функціональної сумісності мереж для міжнародних залізничних перевезень. У дослідженні передбачено детально розглянути основні компоненти сумісності залізниць і можливі шляхи досягнення їх взаємодії. Методика. За основу була взята ідея інтероперабельності як складової логістичної системи на залізниці. Проаналізовано перетинання різних типів колій на прикладі співпраці України з країнами Європи й Азії через збільшення товарообігу між ними. Результати. З огляду на загальні технічні параметри, які об'єднують роботу залізниць, ми з’ясували такі принципи: узгодити набір технічних параметрів, необхідних для взаємодії в усьому регіоні; виявити значення й методи узгодження технічних параметрів для досягнення технічної сумісності; прийняти рішення про поступове впровадження технічної сумісності, починаючи з міжнародних коридорів, скоординовано залежно від пріоритетів міжнародних перевезень. Наукова новизна. У роботі було розглянуто значення сумісності як частини залізничних логістичних систем. Практична значимість. Отримані результати пошуку можуть бути використані під час впровадження загальної платформи співпраці України з іншими країнами, пов'язаними з експлуатаційною сумісністю залізниць, шляхом створення загальної бази для роботи в перспективному співробітництві., Цель. Поскольку Украина активно развивает свою транспортно-логистическую сеть с учетом современных изменений, постоянно растущий объем торговли между Европой и Азией предоставляет хорошую возможность повышения функциональной совместимости сетей для международных железнодорожных перевозок. В исследовании предусмотрено подробно рассмотреть основные компоненты совместимости железных дорог и возможные пути достижения их взаимодействия. Методика. Как основа была взята идея интероперабельности как части логистической системы на железной дороге. Проанализировано пересечение различных типов колеи на примере сотрудничества Украины со странами Европы и Азии в связи с увеличением грузопотока между ними. Результаты. Учитывая общие технические параметры, объединяющие работу железных дорог, мы определили следующие принципы: согласовать набор технических параметров, необходимых для взаимодействия во всем регионе; выявить значения и методы согласования технических параметров для достижения технической совместимости; принять решение о постепенном внедрении технической совместимости, начиная с международных коридоров, скоординированным образом в зависимости от приоритетов международных перевозок. Научная новизна. В работе было рассмотрено значение совместимости как части железнодорожных логистических систем. Практическая значимость. Полученные результаты поиска могут быть использованы при внедрении общей платформы сотрудничества Украины с другими странами, связанными с эксплуатационной совместимостью железных дорог, путем создания общей базы для работы в перспективном сотрудничестве.

Published

2019