Presentation + Paper
25 April 2023 Vibration-based SHM/NDE of continuous welded rails
Alireza Enshaeian, Matthew Belding, Piervincenzo Rizzo
Author Affiliations +
Abstract
This paper describes a monitoring/inspection technique for the estimation of longitudinal stress in continuous welded rails (CWR) to infer the rail neutral temperature (RNT), i.e. the temperature at which the net longitudinal force in the rail is zero. The technique is based on the use of vibration measurements and machine learning (ML). A finite element analysis is conducted to model the relationship between the boundary conditions and the longitudinal stress of any given CWR to the vibration characteristics of the rail. The results of the numerical analysis are used to train a ML algorithm that is then tested using field data obtained by an array of accelerometers polled on the track of interest. In the study presented in this article, the proposed technique was tested in the field. A commercial FEM software was used to model the rail track as a short rail segment repeated indefinitely and under varying boundary conditions and stress. Three ML models were developed using hyperparameter search optimization techniques and k-fold cross validation to infer the stress or the RNT the frequencies of vibration extracted from the time waveforms obtained from two accelerometers temporarily attached to the rail. The results of the experiments demonstrated that the success of the technique is dependent on the accuracy of the model and the ability to properly label the modes of the detected frequencies. The ML was also able to learn from the experimental data only and successfully predicted the neutral temperature of the tested rail section
Conference Presentation
© (2023) COPYRIGHT Society of Photo-Optical Instrumentation Engineers (SPIE). Downloading of the abstract is permitted for personal use only.
Alireza Enshaeian, Matthew Belding, and Piervincenzo Rizzo "Vibration-based SHM/NDE of continuous welded rails", Proc. SPIE 12488, Health Monitoring of Structural and Biological Systems XVII, 1248819 (25 April 2023); https://doi.org/10.1117/12.2657455
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KEYWORDS
Vibration

Finite element methods

Education and training

Accelerometers

Machine learning

Boundary conditions

Data modeling

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