Hey guys, in this lecture series we'll see on structural analysis and in that role the first one is just static structural analysis. So, normally static structural analysis we can identify the stress concentrations and deformation and even the life of our structural component. And so, let's let's start doing the case study. So firstly how to choose the analysis system. So you can see here static structured, so just take that one. So here, we are going to 30 articulated rod of four cylinder cylinder piston rod.
So let's do that just doubletap if dragging is not working so here we are going to use the radial piston engine articulated rod. So they're the main, the forces the main forces is to radial forces and and even the torque also. So let's do that. So first thing what we have to do is we can import the model so forth just right click here So, right click here import geometry. So here just browse and so, so, this is the articulated route what we are going to study. So, you can see this is the dot STP format, this is the neutral file format where we can export this any solid model into any software.
So, in the meantime I'm going to provide this Dotty SDP format file under this lecture description, so you can access it can you can use this part model while you are Landing this lecture. So, you can see here, so just double tap on the geometry. So, we can do some geometry deformation or geometry identification if it is needed. So if it is not needed, or directly we can go with no further processes So, here you can see, since we have imported the model before itself it has taken a bit more time. So, you can see just generated and here you can see Yeah, this is our articulated rod. So, so, before going to the further so here itself we can decide which kind of mesh we how to create.
So, based on that we can we can decide, and we can split this component. So, the best way of creating a structure mesh. Creating a structured mesh is first do the machine then, but after seeing the mesh, we can able to do the modifications to the geometry. Or what we can do is here you can see this is our symmetric model. So directly we can take our mid plane and we can do that. But if we take mid plane, we aren't able to see the results properly.
So first let's continue with the 3d model. Then we'll do with the A to D also so that we'll get to know the difference. So let's motor the measure. So already, it is updated.