Hi guys, in this lecture series we are going to study regarding the thermal analysis. So, here we are going to do the analysis with the help of IC engine components. So, we are going to consider a piston and connecting rod and with piston bushings and all those stuff. So, here we are using our sub assembly of IC engine. So, two in particularly in thermal analysis what we are going to identify or find out is the thermal stresses. So, due to the temperature effect how to stress are going to induce in the components.
So, that is what we are going to study in thermal analysis. So, in the analysis we are dealing with the temperature since we know that the temperature propagation methods are conduction convection and radiation. So, here what we are going to see is conduction. If you want to see the convection we have to do the CFD since convection in the sense the transfer of heat from the fluid to the solids right. So, here we are going to see the conduction and even the radiation also we can see that also will perform or separate analysis for that and we'll see how we can study the radiation also. So, let's get into the software.
So make sure that you know that concepts of conduction convection radiation before getting into this course. So, in this lecture series, what we are going to do is the concepts how we can simulate a thermal analysis using ANSYS workbench. So, the analysis system what we can take is the steady state heat you can see that so, just take the steady state thermal since here we are giving only the comparator source Temperature soared. So that is the reason we'll get only the thermal stresses instead of the normal stasis because we are not going to apply any load here we are just going to see the temperature effect okay. So, the thermal analysis is fine. So the better way is first open the design model and then import the model because if we import here and if we try to open that one it will take a lot of time.
So, let's open the model design module and then import the model that will be the effective method