论文信息 - Microstructure alterations at the surface of a heavily corrugated rail with strong ripple formation

Microstructure alterations at the surface of a heavily corrugated rail with strong ripple formation

The topography, morphology, structure and residual stress state at the surface of a rail with severe longitudinal ripples was characterized using a combination of spectrometry, microscopy, scattering and diffraction methods. The investigations reveal that white etching layers develop at the ripple hills, while the ripple valleys contain a severely plastic deformed layer. While the structure in the ripple valleys remains pearlite, the structure of the white etching layers on top of the ripple hills is nanocrystalline martensite containing cementite particles of a few nanometer size. The microhardness of the white etching layers on top of the ripple hills is about three times higher than the microhardness in the ripple valleys. The microhardness throughout the white etching layer is not homogeneous due to the non-uniform amount of carbon in solute solution and also due to differences in the amount and the size of the fine carbide particles. The whole running surface is under biaxial compressive residual stresses. In the ripple valleys the direction of the principal residual stresses nearly coincides with the longitudinal and the transverse direction on the rail. On the ripple hills the compressive residual stresses due to the martensite formation are significantly higher and the stress state is nearly homogeneous.

[1] T. Wroblewski,et al. Processing of X-ray diffraction imaging data using remote sensing techniques , 2000 .

[2] H. G. Feller,et al. Surface analysis of corrugated rail treads , 1991 .

[3] M. Hanna,et al. An iterative boundary integral numerical solution for general steady heat conduction problems , 1981 .

[4] P. L. Ko,et al. An investigation of rail corrugation using friction-induced vibration theory , 1988 .

[5] J. J. Kalker,et al. Rail quality and maintenance for modern railway operation : International Conference on Rail Quality and Maintenance for Modern Railway Operation, Delft, June 1992 , 1993 .

[6] B. J. Griffiths,et al. Mechanisms of White Layer Generation With Reference to Machining and Deformation Processes , 1987 .

[7] T. S. Eyre,et al. The formation of white layers at rubbing surfaces , 1972 .

[8] Hans-Jörg Fecht,et al. Nanostructure formation on the surface of railway tracks , 2001 .

[9] A. Pyzalla,et al. Changes in microstructure, texture and residual stresses on the surface of a rail resulting from friction and wear , 2001 .

[10] Hans-Jörg Fecht,et al. Surface modification, corrugation and nanostructure formation of high speed railway tracks , 1997 .