wiki:id:view_results
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| wiki:id:view_results [2017/07/14 13:37] – claire | wiki:id:view_results [2023/02/20 16:06] (current) – [Related Tutorial Videos] michael | ||
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| ====== View Results ====== | ====== View Results ====== | ||
| - | The **View Results** display is only available after the simulation has run and contains | + | The **View Results** display is only available after the simulation has run and contains |
| - | ===== Simulation | + | ===== Results ===== |
| + | {{ : | ||
| + | The results tab contains controls to explore and share the results of your simulation. \\ | ||
| + | === Solution Fields === | ||
| + | * **Danger Level (Inverse Safety Factor)** | ||
| + | * The danger level is defined as the stress borne by the object divided by the yield stress of the object. More simply, the danger level field illustrates where structural failure is most likely, based on geometry, load conditions, and material properties. | ||
| + | * **Total Displacement** | ||
| + | * Total displacement shows how much the object moves from its original position | ||
| + | * **von Mises Stress** | ||
| + | * von Mises Stress is defined as Force divided by Area. In practical terms, it is the amount of force that a section of material can withstand before yielding. | ||
| + | * **X Displacement** | ||
| + | * Displacement in the X-direction | ||
| + | * **Y Displacement** | ||
| + | * Displacement in the Y-direction | ||
| + | * **Z Displacement** | ||
| + | * Displacement in the Z-direction | ||
| - | The simulation results tab contains controls to explore | + | **Tip**: To find numerical values of displacements or stresses at a particular location, hold **[shift]** |
| - | {{ : | + | === Deformation Slider === |
| + | Use the deformation slider to see how the object will bend under the given loads. | ||
| - | ==== Analyze Results ==== | ||
| - | To find numerical | + | === Colorbar Limits === |
| + | The colorbar limits slider controls the range of what values | ||
| + | //**Note**: Changing | ||
| - | Displacement and stress values can also be visually inspected by selecting the desired “solution property” from the pull down menu. The following solution properties are currently available on Intact.design: | + | === Sharing Results === |
| - | * X Displacement | + | |
| - | * Y Displacement | + | |
| - | * Z Displacement | + | |
| - | * Total Displacement | + | |
| - | * Von Mises Stress | + | |
| - | The “Deform” slider | + | A shareable link is automatically generated for each simulation scenario. Anyone with this link can access |
| - | ==== Sharing Results ==== | + | \\ |
| - | + | \\ | |
| - | A shareable link is automatically generated for each simulation scenario. Anyone with this link can access the results of the simulation. | + | \\ |
| - | The “Export Video” button automatically creates a short animation of the results that can be shared and saved. | + | |
| + | ===== Physics ===== | ||
| + | {{ : | ||
| + | The Physics tab shows all the loads and restraints placed on the object. To review the simulation setup, click the Physics tab and notice the type of physical constraints applied to the model, as well as a description of each. | ||
| + | \\ | ||
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| - | <WRAP group> | + | ===== Materials ===== |
| - | <WRAP half column > | + | |
| - | {{ : | + | |
| - | </ | + | |
| + | The Materials tab shows a list of all components and their respective materials. To review the components in your assembly as well as their materials, click the Materials tab and scroll through the components. | ||
| - | <WRAP half column > | ||
| - | ===== Scenario Details ===== | ||
| - | The second tab-- “Scenario Details”-- located on the “View Results” display allows the user to review the conditions they provided during Simulation Setup. The user can review what material was assigned to each part and the loads that were placed on the object. The “Show Loads and Restraints” box can be checked to visibly show these conditions on the model. The loads are shown with arrows while the restrained surfaces are colored black. This setting can be especially useful when a quick simulation scenario was applied. | ||
| [[#Advanced Scenario|Back to Top]] | [[#Advanced Scenario|Back to Top]] | ||
| - | </ | ||
| - | </ | ||
| + | \\ | ||
| + | {{ : | ||
| + | ===== Vibration Results ===== | ||
| + | |||
| + | The results page for the Vibration scenario is identical to the standard results window except for the addition of a **Mode** drop down menu. Use this menu to see the modes and frequencies at which the object oscillates at. The way the model deforms will be different for each mode, so make sure to check out how your object oscillates at each frequency. | ||
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| ~~SP~~ | ~~SP~~ | ||
| ~~SP~~ | ~~SP~~ | ||
| + | ---- | ||
| ===== Related Tutorial Videos ===== | ===== Related Tutorial Videos ===== | ||
| + | <WRAP group> | ||
| <WRAP half column> | <WRAP half column> | ||
| - | To learn more about analyzing results, watch this Intact.design beginner' | + | To learn more about analyzing results, watch this Intact.design beginner' |
| - | {{youtube> | + | {{youtube> |
| + | </ | ||
| + | <WRAP half column> | ||
| + | Watch this Intact.design advanced tutorial video from [[https:// | ||
| + | |||
| + | {{youtube> | ||
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| + | </ | ||
| </ | </ | ||
wiki/id/view_results.1500061036.txt.gz · Last modified: 2017/07/14 13:37 by claire