This part is to inform about the general purposes of section definitions. Follow the next steps to create different section definitions that OpenBrIM provides.
Section Editor
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| 1 | Enter a Section under Name. |   |
| 2 | Import a material. | |
| 3 | From any column of the added row, click on three-dots icon |  |
| 4 | You can open the tab which includes Polygon, Template, Rebar and Tendon by clicking |  |
| 5 | To define a polygon shape, click to at | |
| 6 | You can rechange the locations by clicking ‘Points Spreadsheet’ after you assign the shape. 
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Follow the below steps to use Section Editor.
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| 1 | Click |  |
| 2 | If you don’t have a material already imported (or defined as custom), you can import by clicking | |
| 3 | Edit dimensions of the shape to create the section. Click to Import. |  |
| 4 | After you import the section, it will show up on the analytical view. | |
Rebar Definition
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| 1 | Click |  |
| 2 | If you don’t have a Rebar definition in your project, you will get a popup to import one. Just click OK and continue. | |
| 3 | Select your asset from OpenBrIM Database for rebar profile and click Import. |   |
| 4 | By clicking |  |
| 5 | Let’s stay on Line Layout, and enter rebar layout input data | |
| 6 | After you click Add, you should click the start and end location points of the section. No need to be exact in locations,they can be edited later. |  |
| 7 | After clicking end location, Edit Linear Rebar Layout window appears. | |
| 8 | Edit Linear Rebar Layout. |  |
| 9 | If you don’t have a rebar material already imported (or defined as custom), you can import by clicking |  |
| 10 | After Apply all the entered data in Edit Linear/Circular Rebar Layout window, you can change the location of the rebar layout at the analytical coordinate system by clicking Points Spreadsheet under |   |
| 11 | Applying the same procedure, you can insert rebars at top and bottom. This time number of rows is set to 1 and rebar layouts placed twice for top and bottom, respectively |   |
The rebars are completed. This training example doesn’t require any tendon definition; the below steps explain how to add a tendon layout to the section.
Tendon Definition
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| 1 | Click |   |
| 2 | After you import the material for the tendon and add the tendon to your section, you can rearrange the coordinates of the tendon. Also, you can use a parametric relationship as input for Y1=d/2-10 (d = depth of the section). The position of the rebar depends on the section depth. 
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Tendon definitions are completed. Remember this training example doesn’t require any tendon definition.
Section Editor Features
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| 1 | By clicking 3 dot button, you can open the features tab of the section. |  |
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| 1 | Rename Section | Allows to change the name of this section. | |
| 2 | Print Report | Allows to change page size. | |
| 3 | Materials | See the materials assigned in this section, rebar and tendon. | |
| 4 | Rebar Profiles | See the rebar profiles. | |
| 5 | Section Properties | Section properties of the section such as area, inertia, plastic section modulus, etc. |  |
| 6 | Flexure Capacity | Computes flexural capacity of the section. Before moving on with this feature, make sure that you have all the related stress-strain models in the material definitions. |  |
| 7 | Moment Curvature | Computes the moment-curvature diagram of the section. Before moving on with this feature, make sure that you have all the related stress-strain models in the material definitions. |  |
| 8 | Interaction Diagram | Computes Axial Force-Moment Interaction diagram. Before moving on with this feature, make sure that you have all the related stress-strain models in the material definitions. |  |
| 9 | Set C.O.G. as Origin | Changes the origin of the section to (0,0) point. | |