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Home / Journals / Bulletin of scientific research results / Volume 2025 Issue 1 / Defect Detection on the Freight-Car Wheel Surface with a Monitoring Device Mounted on the Axle Box
Defect Detection on the Freight-Car Wheel Surface with a Monitoring Device Mounted on the Axle Box
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DEFECT DETECTION ON THE FREIGHT-CAR WHEEL SURFACE WITH A MONITORING DEVICE MOUNTED ON THE AXLE BOX
Solin Dmitriy 1
Shamray Artem 2
Danilenko Denis 3
Authors:
1.  Emperor Alexander I St. Petersburg State Transport University (Kafedra «Vagony i vagonnoe hozyaystvo», Postgraduate Student)

Joint-Stock Company Scientific and Innovation Center “Wagons” (Test Engineer)

Russian Federation
2.  NPP RaTorm LLC (Technical Director)

Russian Federation
3.  RM Rail Management Company LLC (Director of Innovation Development)

Russian Federation
Type:
Article
DOI:
https://doi.org/10.20295/2223-9987-2025-1-45-61
Pages:
from 45 to 61
Status:
Published
Received:
23.03.2025
Accepted:
25.03.2025
Published:
25.03.2025
Subject area:
UDK 629.4.018 Испытания - методика и оборудование
UDK 629.4.069 Другие вспомогательные системы, являющиеся частью подвижного состава
Language:
Russian
Keywords:
Digital freight car, research tests, diagnostics system, accelerometers, acceleration amplitudes, rolling surface defect, wheelset, axle box
Abstract and keywords
Abstract (English):
Purpose: To obtain CMDS initial data from the moving freight car (empty or loaded) wheelsets both newly manufactured or with rolling surface defects; to generate statistical data based on the results of registered readings from CMDS inbuilt sensors installed on the 18-9891 model bogie. Methods: Statistical data processing obtained from the CMDS device tested on a railway car to determine the maximum acceleration amplitudes of a moving car with different wheelset conditions and impact frequency for each speed mode. Results: The research tests have shown that the CMDS captures the impact of a defective wheel against a rail. The algorithm for automatic detection of a defective wheel impact against the rail can be built based on the frequency component of increased acceleration amplitudes with the appropriate loading mode and speed of movement. Practical significance: The test results obtained allow developing algorithms for defect detection on the train wheelset rolling surface using CMDS, which is one of the most important functions of a digital freight car.

Keywords:
Digital freight car, research tests, diagnostics system, accelerometers, acceleration amplitudes, rolling surface defect, wheelset, axle box
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References

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