 Hello friends, my name is Saurabh Deshmukh, working as an assistant professor in Department of Mechanical Engineering, Valshan Institute of Technology, Sallapur. In this video, we are going to learn how to perform the static structure analysis using workbench. The learning outcome. At the end of this session, the learner will be able to perform the static structure analysis in N6 workbench 2021 R1 version. We are going to solve this problem in workbench. We are considering here two step bars of length 60 mm and 40 mm. The area of the first bar is 50 mm square and the second bar having the area of 25 mm square. The material properties of the two bars are also given. We are considering here uniform material that is structural steel of the Young's modulus 2 x 10 to 5 megapascal. The one end is fixed supported here and from other end we are applying tensile force of 100 Newton. So we will solve this problem in workbench. So we have opened here the workbench tab. You will find here various analysis systems here. So you will find the model, model acoustic, random vibrations, response, static acoustic, rigid dynamics, static structural, so transient thermal, transient structural. So we are going to choose the static structural here. So just click on and drag it and drop it here. You will find a box here and you will see various options here. So engineering data, geometry, model, setup, solution and results. So in engineering data we can introduce materials here. So you will find the bi-default materials which are already available in ANSYS library. So if you will click here and double click here, the ANSYS library will get open. So bi-default the ANSYS select structural steel as our material. So if you want to choose another material so we need to go to the engineering data sources and you will find few materials here like general material, additive manufacturing materials etc. So you will find in general material you will find the various type of materials here like air, aluminum alloy, concrete, copper alloy, ok. So grey cast iron, magnesium alloy etc. The structural steel also they have introduced in the general materials. So you can either you can select materials from this or you can also introduce the new material you need to click here to add a new material into the library. We will see this in another video. So as we are going to perform by using the structural steel in this video, ok. So if you want to go to the project just click on the project here and go to the geometry. You can either input geometry in ANSYS in dot IGS form or dot STB form or dot model form or with the extensions I will say or you can you can model in the space claim or the design modeler platform, ok. So I will create model using the design model platform. Just click on the design modeler, design modeler here and you will get this as we are going to perform it is in XY plane, ok. So just click on the XY plane then go to the sketching, go to the rectangle we are going to perform the structural analysis of a beam here. So go to the rectangle just draw a rectangle here before that just change the units, ok. So go to the unit and we will select it is as a millimeter. So click on the millimeter it will get changed to the millimeter. So now we are going to draw a rectangle and by extruding that rectangle we will draw a beam here, ok. So just draw a rectangle here. Now we need to give the dimensions, click on dimension, general dimensions, click on this length, click on this length. Now the V1 we will apply it, V1 as we can apply it is as a 10 mm, ok and just click somewhere else then for H2 it will be a we will take it as a 5 mm, ok. So you will find here a beam of cross section 50 mm square, ok. Now we need to generate this, ok. So and we need to extrude that, ok. So just generate and you will find here you will find the extrude option here. So to extrude the geometry here. So click on the extrude the section or the geometry is selected by default. Just click on the apply and give depth or the actually here the length here. So just apply here 60 mm length and click on the generate. So you will find the beam of the cross sectional area 50 mm square and the length of 60 mm, ok. We will take here step bar. So just click on the new plane here, ok. So we need to select the plane on this face, ok. So type is from plane just click on this and select from face, ok. Just click on the base face, so click on the face here and apply, ok. So this will be the new plane here you will find it here and now we need to this we need to introduce the sketch. So go to the sketching, ok. We need to create a generate here so that the plane will get generated. Now click on the new plane, ok. So new we are going to new sketch here. So click on the sketch here, new sketch, ok. So go to the sketching, so go to the line, ok. Now this is a straight line we have we have got the straight line just go to the dimension general dimensions give it 2.5 mm, ok. Now we will draw a rectangle there from this point this line, ok. So we need to apply dimensions here go to dimension, generate dimensions it will be off and this, ok. There is no problem it is sure it is saying that it will be over constant there is no issue. So we need to change V3 it is a 5, ok no problem we need to change the H to here. So click on the H to and click it here as a fine. So we have applied a rectangle here we have drawn rectangle of area 25 mm square, ok. So just, ok. So now go to the sketching, modeling here and then select the extrude now this is selected, ok. Now apply 40 and just generate it. So you will find a step bar here, ok. Now we need to go to the workbench again. So go to the model so that the window of the model is open here. Now we will apply the we have already applied the material here the structural steel there is no problem just click on the solid here and just I will expand this and you will find the assigned material here as structural steel, ok. So we will directly mesh this element this or total body so just click on this body select this body and just mesh this, just click and update the mesh, ok. So you can change the size here, ok. So you will also find the total number of elements and nodes also. So we will now apply the boundary condition just go to the static structural we need to rotate this now just we are going to we are going to fix this support. So we need to select the face then go to the environment here just click on the environment you will find here load support force moment, ok. So you will also find these supports fixed support, ok frictionless support click on the fixed support click on this face and apply it. Now we need to apply the force on face, ok. So also click on the force, ok you will find here the option force. Now we need to select the face so click on the face click apply, ok. Now we need to give the magnitude of force either we can give the ramp magnitude in vector form or in the component form. So we will apply component on in x axis I guess no it is in z axis, ok. So you will find it here the z axis along z axis we will apply the force. So click on the z and give it any number we will apply it 100 Newton. So we have applied the force now we will solve for the deformations, ok just click on the solution. So go to the results and then you will find here deformation the total deformation we will also calculate the strain and stress. Just click on the solve button and this will solve this problem, ok to showing the warning at least one body has been found, ok. We need to change the mesh size here actually we will not get the results we will change the mesh size here, ok. So just click on the mesh and the you will find here element size as a default give it as a 5 just and then mesh actually it we need to update it, ok. The 5 it is going to be meter actual just click on the home and change the units to the mm and now it we will get it is 5 or we will take it as a 10, ok. And then go to the mesh just update it we will solve this again or it is again showing just irritating it it is at its 2 2, ok 2 we will take it as a 2 or we will take it as a 1, ok we will mesh it in smaller parts just click on the update, ok. And now we will solve it we will find the total deformation at 0.0014 mm maximum deformation we will find and the elastic strain is 2.8, ok and maximum strain and the stress is 5.3 megapixel maximum, ok. So I hope you have understood how to perform the analysis in Workbench. These are the references. Thank you.