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- Hexa Mesh Generation for a 2D Pipe Junction
- Starting the Project
- Step 1: Block the Geometry
- Step 2: Associate Entities to the Geometry
- Step 3: Move the Vertices
- Step 4: Apply Mesh Parameters
- Step 5: Generate the Initial Mesh
- Step 6: Adjust the Edge Distribution and Refine the Mesh
- Step 7: Match the Edges to Improve Quality
- Step 8: Verify and Save the Mesh and Blocking
- Hexa Mesh Generation for a 2D Car
- Starting the Project
- Step 1: Create and Split the Blocking to Resemble the Geometry
- Step 2: Associate and Fit the Blocking to the Geometry
- Step 3: Align the Vertices
- Step 4: Set Mesh Parameters and Generate the Initial Mesh
- Step 5: Create an Ogrid
- Step 6: Refine the Mesh using Edge Parameters
- Step 7: Save the Replay File and Use it for Design Iteration
- Step 8: Create Output Data for a Solver
- Hexa Mesh Generation for a 3D Pipe Junction
- Hexa Mesh Generation for a Sphere Cube Geometry
- Hexa Mesh Generation for a Pipe with Embedded Blade
- Starting the Project
- Step 1: Creating Parts in the Mesh Editor
- Step 2: Initial Blocking and Associations
- Step 3: Splitting and Collapsing Blocks around the Blade
- Step 4: Fit the Blocking to the Blade geometry
- Step 5: Generating the Ogrid
- Step 6: Defining the Mesh using Surface Parameters
- Step 7: Refining the Mesh using Edge Parameters
- Step 8: Checking and Improving Mesh Quality
- Step 9: Saving your Work
- Hexa Mesh Generation for an Elbow Part
- Starting the Project
- Step 1: Preparing the Geometry
- Step 2: Blocking the Geometry
- Step 3: Fitting the Blocking to the Geometry
- Step 4: Creating the First Ogrid
- Step 5: Adjust the Ogrid Edge Length to Improve Quality
- Step 6: Generate the Pre-Mesh
- Step 7: Creating the Second Ogrid
- Step 8: Generating the Mesh
- Step 9: Saving the Project
- Bottom Up Hexa Mesh Strategy for a Grid Fin
- Starting the Project
- Step 1: Creating an Initial 2D Blocking Associated with a Minor Geometry
- Step 2: Creating an Ogrid and Placing Vertices
- Step 3: Completing the 2D Grid by Vertex Placement
- Step 4: Extruding the 2D Grid to Create 3D Blocking
- Step 5: Resolving Zero Thickness Walls
- Step 6: Defining Periodicity
- Step 7: Generating and Refining the Mesh
- Step 8: Cleaning up
- Tetra Mesh in a Piston/Valve Assembly
- Tetra/Prism Mesh in a Fin Configuration
- Tetra/Prism Mesh Generation for an Aorta
- Prism Options in a Hybrid Mesh for a Helicopter
- Merged Tetra-Hexa Mesh in a Hybrid Tube
- Starting the Project
- Step 1: Setting the Mesh Parameters
- Step 2: Generating the Tetra Mesh in CYL1
- Step 3: Generating the Tetra Mesh in CYL2
- Step 4: Merging the Tetra Mesh between CYL1 and CYL2
- Step 5: Generating the Hexa Mesh in CYL3
- Step 6: Merging the Tetra Mesh with Hexa Mesh at Interface2
- Step 7: Cleaning up and Saving the Project
- Multizone Mesh in HVAC Square-to-circle Transition Duct