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The train passages over intact or damaged slab tracks on different soils have been calculated by two methods. The finite element method (FEM) uses a Winkler soil under the track model by adding a thin “soil layer”. The combined finite element boundary element method has a continuous soil model which is included by the boundary element method. The basic results are the distributions of the track (rail, track plate, and base layer) displacements along the track for a single axle laod. These solutions are superposed to a complete train load and transformed to time histories. The influence of track and soil parameters has been analysed. The main interest is the influence of the track damage. A gap between track plate and base layer of different lengths has been studied for changes in amplitudes and widths of deflection. A best fit to measured track displacements has been found so that the track damage can be identified and quantified. The FEM model with Winkler soil cannot be fitted to the amplitude and width with the same soil parameters. Therefore, the FEBEM model is preferable for these railway track problems.
Der Erhalt und die Weiterentwicklung der Verkehrsinfrastrukturen werden auch zukünftig einen Investitions- und Forschungsschwerpunkt in Deutschland bilden. Gemäß den aktuellen Entwicklungsprognosen sowohl der Bundesregierung als auch der Deutschen Bahn wäre bei unveränderten Marktanteilen der Bahn eine Zunahme insbesondere des Güterverkehrs in den kommenden 10 Jahren um ca. 50% zu erwarten. Dieser Zuwachs erfordert erhebliche Entwicklungen sowohl in der technischen Konstruktion der Fahrwege als auch im Erschütterungs- und Lärmschutz infolge des Schienenverkehrs.
The maintenance of the transport infrastructures and their further development are going to remain focal points for investment and research in Germany in future. According to the latest development forecasts made by both the federal government and Deutsche Bahn, even if rail´s percentage share of the market were to remain unchanged, growth of around 50% would be expected in the next ten years, especially in freight traffic. This growth is necessitating considerable development both in the technical design of the tracks and in the abatement of the noise and vibration caused by railway traffic.