You must create a shell representation of the beam that can be analyzed by Abaqus. Creating a shell for this part requires multiple steps and tools. There may be several equally valid ways to produce an accurate shell representation for a model. The following steps use tools from the Geometry Edit toolset to create the new shell faces.
Use the offset face tool to create shell faces for the vertical upper left side of the beam.
Select faces from the reference representation to create the offset shell. Use Auto Select to select the target faces. The faces to offset and the target faces are shown in red and magenta, respectively, in Figure 35–17.
The faces to offset are the two outer vertical faces toward the rear. The target faces are the nine faces, mostly unconnected, that comprise the inner surface of the same beam wall. The Fraction distance to closest point on face method is used with an entry of 0.5 to create the offset with half the thickness of the thinner main portion along the top of the beam. Using this option prevents the thicker sections at the left and along the bottom of the beam from creating an offset larger than the thinner portion. The Auto trim to reference representation option is used for this step. This operation extends the faces during the offset process and then trims them along the edges of the reference representation. Auto trim may fail when multiple offset and target faces are selected; if auto trim fails, Abaqus/CAE displays a warning indicating the failure. You can use the extend faces tool to extend the new faces to meet the edges of the reference representation. The resulting offset faces are shown in Figure 35–18.Repeat the process from Step 1 to create offset faces for the opposite side of the beam.
The resulting shell model now contains the two outer surfaces of the beam, as shown in Figure 35–19.
Create offset faces for the four horizontal sections that connect the two side walls.
You can create the faces in a single offset operation by selecting the four top faces to offset and using Auto Select to select the corresponding bottom faces. In this case Auto trim to reference representation is toggled off, so the new faces are not extended and trimmed. The shell model of the horizontal faces is shown in Figure 35–20. (The faces created in Step 2 have been suppressed for clarity.) Notice the gaps between the horizontal faces where they meet the vertical reinforcement ribs in the original part. Similar gaps exist between the horizontal shell faces and the side walls created in the previous two steps.
Repeat the process from Step 3 to create offset faces for the vertical ribs that connect the sides of the beam.
The midsurface shell model now contains faces representing nearly all of the solid geometry, as shown in Figure 35–21. However, there are gaps between most of the faces due to the thickness of the original solid structure.
Close the gaps between the vertical ribs and the beam sides.
Use the extend faces tool to extend the six vertical ribs to intersect with the sides. The selected faces and target faces are shown in magenta and yellow, respectively, in Figure 35–22.
When you click OK, Abaqus/CAE updates the highlighting to indicate the edges along which the faces will be extended, as shown in Figure 35–23, and displays a warning dialog box with options allowing you to accept the selection, to extend all edges of the selected faces, or to cancel the extend faces procedure.
Use the extend faces tool to extend the horizontal faces to intersect with the sides of the beam.
In this case, use the Specify edges of faces to extend method with Up to target faces to pick the edges and faces, respectively, shown in Figure 35–24. When Abaqus/CAE highlights the edges indicating the areas that will be extended, the four edges indicated by arrows in the figure are removed from the selection because they do not completely match the target faces. Click No to use the previous selection of edges.
Close the remaining gaps between the horizontal and vertical connecting sections of the beam. You can use either the blend faces tool or the extend faces tool to complete the midsurface model by closing the remaining gaps between the horizontal and vertical connecting sections of the beam.
Use the extend faces tool with the selections shown in Figure 35–25.
Toggle on Trim to extended underlying target surfaces so that Abaqus/CAE will extend and trim the vertical faces to their implied intersections with the selected target face.
Use the blend faces tool to fill the remaining gaps.
The tool must be used three times to fill the three remaining gaps in the model.