Title :
Wheel-Rail Slide Thermal-Elastic Coupled Analysis
Author :
Cao Siyang ; Zhang Jian ; Sun Chuanxi ; Zhang Jun
Author_Institution :
Sch. of Traffic & Transp. Eng., Dalian Jiaotong Univ., Dalian, China
Abstract :
To study the effects of temperature dependent nonlinear material properties on wheel-rail thermo-elastic contact, and compare behavior of different wheel profiles, four types of wheel profiles, XP55, S1002, LM, and LMA, wheel-rail slide models were built using finite element method (FEM) software MSC.Marc. Slide temperature and thermal stress were analyzed in thermal-contact coupled and pure mechanical load cases respectively. In the coupled load case, temperature dependent nonlinear material properties, including Young´s modulus, heat conductivity, specific heat and thermal expansion coefficient, that would affect the simulation were considered in the FEM models. The results indicate that thermal expansion coefficient and specific heat have the most obvious effect; Young´s modulus weaker than the above two, and heat conductivity the weakest.
Keywords :
Young´s modulus; finite element analysis; heat conduction; mechanical engineering; rails; sliding friction; specific heat; thermal expansion; thermoelasticity; wheels; FEM software MSC.Marc; Young´s modulus; finite element method; frictional damage; heat conductivity; slide temperature; specific heat; temperature dependent nonlinear material properties; thermal expansion coefficient; thermal stress; wheel profiles; wheel-rail slide thermal-elastic coupled analysis; Coupled mode analysis; Couplings; Friction; Material properties; Rails; Temperature dependence; Thermal conductivity; Thermal loading; Thermal stresses; Wheels;
Conference_Titel :
Information Engineering and Computer Science, 2009. ICIECS 2009. International Conference on
Conference_Location :
Wuhan
Print_ISBN :
978-1-4244-4994-1
DOI :
10.1109/ICIECS.2009.5364030
