Hi guys, in this lecture series we are going to study the coupled analysis. So, far we have seen how we can perform individual analysis let's say the static structural are the modal analysis or the thermal analysis. But in this case we are going to solve two problems at a time means two kinds of effects we are going to observe in our same time. So, we can do that in two ways. So, one is you can see here the custom systems So, you can see here see effects in statics sexual fluent in static structural, these are the FSA fluid structure interactions, but we can say these things are the coupled analysts Also. So that phenomena we can create here also.
So let's see here. So, static structural, first take the static structural, then take the model analysis and here you can see just drop down on the solution, it is going to create a connection, you can see the different two types of connections mainly here. So, the square solid square connection means here it is going to transfer the data and here you can see a circular connection. So, that is going to transfer the results only. And, here we no need to create our model, different models here and here. So, we just need to create a model here and it is going to update automatically here.
So, directly we want to say simply we can work on this and automatically it is going to update and at the end we are going to get the two results here. So, let's open the German tree. So, here we will study the same case what we have studied on the static structural and modal analysis, then it will be very easy for you guys to understand. So, import external geometry file. So what we have taken is the articulated rod gendered. So then you can see already German tree updated here and here as Well and then go with the modeling only the thing is in the results window we are going to get are two types of window one is for model analysis and another one is for static analysis, that is a major change.
So, has updated so you can see here, static and modal both. In previous cases we use it to get only one in this artist right. So, that is the difference. let's generate our mesh. So, here we'll just go with our default mesh with our relevance. So, so till we can improve that, but it's enough otherwise it will take a lot of memory it is going to conduct a lot of memory.
So once we have done with it static, so go here, so it's not the fixed support. So, so does the rollers support what we need cylindrical support. So our plate so that is going to be our cylindrical support and the load. So the preserve for what we need so just select these two phases of plate and let it be Hundred Newton's sorry Pascal, so, that is and here the direction. So, components here x direction right. So, just use the negative x direction.
So I think we have given very less pressure let's give it 500. Now you can see the direction of the arrow right. And results also we can define your total and directional one strain one Mr stress, even the tools we can take fatik to. So, life we can see and damage we can see and the safety factor also we can see it is the case of modal analysis right. So since already we have given the condition in static, so we no need to do any conditions, model and model directly we can take the results