The effect of vermicularity on the thermal conductivity of vermicular graphite cast iron

As an ideal material for the cylinder head of high power density diesel engine, vermicular graphite cast iron (VGI) with higher thermal conductivity was received more and more attention recently. In this article, finite element (FE) software ANSYS was applied to investigate the changes of thermal conductivity of VGI with the vermicularity and the FE-models are carried out based on the real metallographic images of VGI. The results indicate that there is a big difference between the numerical simulation and the reality without the consideration of the thermal contact resistance of interface between matrix and graphite. The numerical simulation result is close to the reality when the contact thermal conductance is set at 0.1 W/(m(2).K). In addition, the equivalent thermal conductivity along X direction k(equ,x) rises from 34.437 W/m.K to 38.902 W/m.K and increases by 13% or so when the vermicularity is improved from 40% to 90% according to the numerical simulation. (C) 2016 Elsevier Ltd. All rights reserved.