Abstract
The given article considers the method of calculating the track geometry deformation with respect to uneven accumulation of residual deformations along the track. The technique proposes two significant changes in existing approaches to calculating the efficiency of the ballast layer. The transition from the approach of allowable stresses design in the ballast layer to the deformative approach of accumulations of track geometry deformations allows us to draw conclusions regarding the intervals of track tamping and the duration of ballast layer life cycle. The transition from the determinative to probabilistic approaches makes it possible to draw conclusions not only from the average unevenness, but also with regard to all possible facts of unevenness. The method is based on the mechanism of sudden and gradual deformations occurrence, which depends on a number of key factors: dynamic stresses on the ballast, non-uniformity of track elasticity, performance of current maintenance work. Based on the experimental studies results, the dependencies of sudden deformations and the intensity of gradual deformations on the level of stress on the ballast layer were established. The experimental results of the influence of the sub-ballast base elasticity on the intensity of accumulation of residual deformations are shown. On the basis of the developed method, the prediction of track geometry deterioration for a given structure of the track, the rolling stock and the permissible level of geometric deviations for track maintenance is presented.
Highlights
One of the most important elements of the track, which the life cycle of the track depends on, is a ballast layer, since it most intensely accumulates irreversible deformations
Based on the knowledge of ballast layer deformation mechanisms and factors influencing it, it is possible to predict the process of track geometry deformation, and to build a strategy for current maintenance and track repair
The phenomenological model for track geometry deformation prediction is proposed in this article
Summary
One of the most important elements of the track, which the life cycle of the track depends on, is a ballast layer, since it most intensely accumulates irreversible deformations. The work of the ballast layer depends on the simultaneous mutual influence of the most important groups of factors, namely: factors of the track construction, rolling stock, operating conditions and maintenance factors. Based on the knowledge of ballast layer deformation mechanisms and factors influencing it, it is possible to predict the process of track geometry deformation, and to build a strategy for current maintenance and track repair. The phenomenological model for track geometry deformation prediction is proposed in this article This model is based on the results of a series of experimental studies and takes into account the main mechanisms of the uneven accumulation of track deformation due to the subsidence of the ballast layer
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