Run Quick Analysis

Define run options and execute a quick analysis to understand predicted flow pattern and sink marks data during molding. Generate results for individual or combined events.

1. Click Run Analysis on the Analyze icon..
   
   
2. Define the parameters for the analysis.

   Tab	Option	Description
   Stages	Name	Type the name of the run. By default, the name of the model is used.
   	Speed/Accuracy	Adjust the slider to determine whether the results returned are faster or more detailed. Drag the slider to Fast to apply an element size that is equal to the average thickness * 2. Drag the slider halfway between Fast and Detailed (Medium), to apply an element size that is equal to the average thickness * 1.2. Drag the slider to Detailed to apply an element size that is based on the thickness and number of mesh layers. The default number of layers = 5. The minimum number of layers for filling, cooling, and warpage = 2; packing = 4; fibers = 5.
   	Auto Mesh	Enable this option to allow Inspire Mold to automatically determine the optimal mesh size for the analysis. Note: If you enable Auto Mesh, Average thickness and Element Size will be disabled. If a mold is present in the model, Auto Mesh is not supported.
   	Average thickness	Enter the average thickness of the part. The software creates the mesh based on this value.
   	Element size	Enter the average element size for the part cavity. The software creates the mesh based on this value.
   	Number of layers	Enter the number of element layers to be generated. To reduce computation time, specify 3 to 5 layers. To improve accuracy, specify 6 or more layers. Note: The Number of layers field is unavailable in a Fast analysis.
   	Filling	Select to examine the flow pattern, temperature and pressures associated with the material entering into the mold. Select the Add Fibers option to define the addition of fibers to the part material. Note: You must also define or select a material with fiber properties when assigning a material to your part during the analysis setup.
   	Packing	Select to calculate the pressure necessary during solidification to compensate for contraction due to temperature.
   	Cooling	Select to view cooling results in which solidification starts with a totally full mold and ends at a specified temperature or time.
   	Warpage	Select to examine evidence of warpage. Warpage can occur when a material shrinks non-uniformly due to high cooling rates, mold restraint, or temperature differences that create internal stresses. Note: You must also select the Cooling option to generate warpage results. Warpage is unavailable in a Fast analysis.
   Thermal	Filling, Packing, Cooling HTC	Enter the Heat Transfer Coefficient. W/m2K for each stage of the process.
   	Room temperature	Enter the ambient temperature of the work environment
   	Virtual mold temperature	Set the desired starting temperature for the mold.
   Advanced	Stop analysis if mesh quality is poor	If this option is selected, Inspire will run a quality check on the mesh settings. If the mesh quality is not high enough to yield accurate results, Inspire will stop the simulation. To mitigate this risk, review mesh size and mesh factors, or enable the Use advanced meshing with SimLab option.
   	Mesh Factors	Enable this option to manually adjust the mesh size for each component: Gate, Runner, and Sprue. Enter a factor to multiply the Element Size by. The available range for each of the components is 0.1-5. This option will be unavailable if Auto Mesh is enabled.
   	Use advanced meshing with SimLab	If this option is selected, SimLab will be launched when you run an analysis so that you can perform advanced meshing. This option will be unavailable if Auto Mesh is enabled. Note: SimLab must be installed for this feature to work.

3. Click Run.
   The run status is displayed.