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Yuewei obtained his MSc degree in Engineering Mechanics at Dalian University of Technology, PR China, in 2012 His research topic is Damage Analysis and Optimal Analysis on Rail Pre-grinding Profile in High-speed Railway.  After his graduation, he Became a PhD candidate at Road and Railway Engineering section at Delft University of Technology from September 2012.

  • Finite element analysis
  • Multibody analysis
  • Profile optimization
  • Probabilistic modeling

Wheel and Rail Interface Probabilistic Optimization Based on Fatigue Life Prediction

Due to the harsh working environments, nowadays it is not uncommon to find a multitude of wheel-rail interface damage (including wear, squats, head checks, which greatly limit their serving lives and cause considerable economic loss. Thus quite a lot of attention has been drawn on wheel-rail interface for activities, such as unveiling the damage mechanisms, optimising the wheel-rail interface et al. Over the past decades, even though several numerical procedures for wheel-rail interface optimization have been proposed, few of them can take the uncertainty of railway parameters into account, which will greatly influence the result of wheel-rail interface assessment. Moreover, details of wheel-rail interface damage mechanisms are always ignored or simply considered by engineering formulas. The goal of our research is to develop a comprehensive and robust optimization procedure for overcoming the problems listed above. The variety of contact geometries, friction coefficients, track parameters as well as vehicle properties will be integrated into the developed optimization model. Meanwhile, the interface serving life will be assessed and further employed as a constrain in the optimization process. Up to now, a three dimensional (3D) explicit finite element (FE) model for accurate determination of stress and strain fields in W/R contact area has been developed and verified with “CONTACT” method. The model is characterized by accounting the realistic W/R contact geometries, non-linear material properties and dynamic behaviour together. In addition, a novel meshing refinement method, aiming to study the micro-scale stress/strain field on the contact surface, is integrated with the 3D FE model. Preliminary results obtained from the numerical simulations are shown in figures below.

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Yuewei Ma, MSc

PhD Researcher

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Building: 23, room 1.54

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