Test Bench for Testing of the Traction Drive of Railway Vehicles

Trpák, Lukáš; Čejka, Bohumil; Heller, P. R.

doi:10.17973/mmsj.2016_11_201697

Cited by 3 publications

(1 citation statement)

References 0 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Polach evaluated the tractive force control method which can be varied with contact condition between train wheel and track [10,11]. Heller et al developed the test bench for characterization of tractive force of driving module, maximum velocity and generating torque for parametric study [12]. Also, Fornarelli et al analyzed the swash plate pump theoretically and estimated the frictional force of piston and loss of volumetric efficiency with simulation method using AMESim ® software.…”

Section: Introductionmentioning

confidence: 99%

Development of Traveling Equipment for Construction and Maintenance of Railroad Track Based on 14-Ton Class Excavator

Kwon¹,

Lee²

2020

Int. J. Eng. Tech. Mgmt. Res.

View full text Add to dashboard Cite

The unique traveling mechanism was established and investigated by a coordinated modeling and experimental effort and both results are compared for validation of newly developed traveling equipment based on the conventional excavator system. The various hydraulic characteristics such as flow rate, pressure, revolutions per minute (RPM), and torque was confirmed by numerical and experimental technique with the appropriate test bench. After the above processes, the experimental and analytical results were successfully correlated. As a result, this new traveling equipment can contribute to save the outstanding monetary cost during railway construction and maintenance in that this equipment facilitates the accessibility of the conventional excavator into the work site composed of the railroad track.

show abstract

Section: Introductionmentioning

confidence: 99%

Development of Traveling Equipment for Construction and Maintenance of Railroad Track Based on 14-Ton Class Excavator

Kwon¹,

Lee²

2020

Int. J. Eng. Tech. Mgmt. Res.

View full text Add to dashboard Cite

show abstract

Numerical Simulation and Experimental Testing of Two-axle Chassis of Low-floor Trams

Kalina¹,

Heller²,

Chval³

et al. 2018

Manufacturing Technology

View full text Add to dashboard Cite

This paper deals with numerical simulations and with experimental testing of chassis of low-floor trams. This chassis was designed with respect to low-floor construction, low weight, good driveability of a tram and with respect to fulfillment of standards and regulations. The chassis is in a numerical simulation burdened by load conditions according to EN 13749:2011 even during an experimental testing. The simulation is performed using the FEM Nastran solver implemented in the CAD system Siemens NX 11. Based on FEA the locations for strain gauges during testing were found. A total number of 40 strain gauges were used to measure the strain which was then recalculated to uniaxial stress. The testing was performed on hydraulic test bench Inova. The results of FEA and of an experimental testing were compared.

show abstract

Development and Implementation of an Energy-Efficient Test Stand for Railway Car Bogies

LIPCINSKI,

OVEZEA,

ILIE

et al. 2023

EEA

View full text Add to dashboard Cite

The bogies of railway cars are important components of the rolling stock system. The test stand solution that we have developed and proposed is used for testing car bogies under load to inspect and highlight the features that ensure operational safety and energy efficiency. This article presents the development and manufacturing of a prototype test stand for railcar bogies, incorporating specific elements such as hydraulic pressure cylinders, force transducers, displacement transducers, a hydraulic pumping system, a data computation and processing system, as well as a control and command unit. The technical topic of developing the test stand is aimed at testing bogies under a controlled, variable and uniformly distributed load, closely simulating the operational conditions of railcar bogies. The accurate and complete determination of the bogie's parameters assures the railroad operator that they are safely interchangeable—Moreover, decreasing the time spent on testing tasks and increasing the testing process efficiency through process automation is leading to a cutback in energy consumption and better predictability of the time intervals required for the repair of railway cars. The prototype consists of three hydraulic pressure cylinders: a centrally located hydraulic cylinder exerting a maximum pressing force of 20 tons-force and two lateral hydraulic cylinders, each applying a maximum pressing force of 10 tons-force. The hydraulic cylinders operate independently from each other, also supporting asymmetric load distributions that recreate the operating conditions as faithfully as possible. The data processing system monitors the magnitudes of the forces and the displacement of the hydraulic cylinders for reporting the specific characteristics of the bogie. To ensure rapid response in the control of the testing process, a control logic unit was developed, entirely dedicated to the control of this technological process. The graphical user interface of the embedded computer system was designed in the LabVIEW programming environment.

show abstract

Test Bench for Testing of the Traction Drive of Railway Vehicles

Cited by 3 publications

References 0 publications

Development of Traveling Equipment for Construction and Maintenance of Railroad Track Based on 14-Ton Class Excavator

Development of Traveling Equipment for Construction and Maintenance of Railroad Track Based on 14-Ton Class Excavator

Numerical Simulation and Experimental Testing of Two-axle Chassis of Low-floor Trams

Development and Implementation of an Energy-Efficient Test Stand for Railway Car Bogies

Contact Info

Product

Resources

About