Name: Pang, Tao.
Email address: tony_pang@hotmail.com
Title: Studies on Wheel/Rail Contact – Impact Forces at Insulated Rail Joints
Completion Date: 2008
Document Type: Masters Thesis
Degree: Master of Engineering
Faculty: Sciences, Engineering & Health
School: Centre for Railway Engineering
Abstract: To investigate the wheel/rail contact impact forces at insulated rail joints (IRJs), a three-dimensional finite element model and strain gauged experiments are employed and reported in this thesis. The 3D wheel/rail contact-impact FE model adopts a two-stage analysis strategy in which the wheel-IRJ railhead contact is first established in the static analysis and the results transferred to dynamic analysis for impact simulations. The explicit FE method was employed in the dynamic analysis. The Lagrange Multiplier method and the Penalty method for contact constraint enforcement were adopted for the static and dynamic analyses respectively. The wheel/rail contact-impact in the vicinity of the end post is exhibited via numerical examples from the FE modelling. The wheel/rail contact impact mechanism is investigated. The strain gauged experiments which consist of a lab test and a field test are reported. The signature of the strain time series from the field test demonstrates a plausible record of the dynamic responses due to the wheel/rail contact impact. By using the experimental data, both the static and the dynamic FE models are validated. It is found that the stiffness discontinuity of the IRJ structure causes a running surface geometry discontinuity during the wheel passages which then causes the impact in the vicinity of the end post. Through a series of sensitivity studies of several IRJ design parameters, it is shown that the IRJ performance can be effectively improved with optimised design parameters.
Keywords: Insulated Rail Joints, IRJ performance, impact forces, wheel / rail contact, dynamic responses, finite element modelling
Availability: Release the document for world-wide access.
Public URL: http://library-resources.cqu.edu.au/thesis/adt-QCQU/public/adt-QCQU20080410.154708/index.html