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April 12, 2017, 11:11 |
Beginner with snappyHexMesh
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#1 |
Member
Lilian Chabannes
Join Date: Apr 2017
Posts: 58
Rep Power: 9 |
Hello all,
New to OpenFOAM, I'm trying to import stl files and use snappyHexMesh to mesh inside. Spent the day on it and I misunderstood many things I think ! I have problems that are probably already solved somewhere in the forum, but can't find it, sorry for that. 1st problem I'm trying to mesh this propeller that I find online : https://drive.google.com/open?id=0B3...ll1TzMwdG03RTA Based on the flange snappyHexMesh provided, I obtain this result for the mesh, which is not very smooth you'll agree with me : https://drive.google.com/open?id=0B3...l9pSkYzekYzbFU If I increase precision in BlockMeshDict, then it's better, but still not smooth. And if you look closely there's like piece of mesh floating unattached to the propeller. Finally it looks like the inside mesh is not created : https://drive.google.com/open?id=0B3...0JsblM3LTJfaDA I'm trying to play with the different parameters in snappyHexMeshDict but nothing change much. Reading the tutorial on the wiki, I thought the blockMesh grid created wasn't important, but apparently it is ? Or I am simply not using snappy in the right way ? (That's the most probable answer) 2nd problem I tried to do the same with another .stl file, and here it's even worse, everything is running, but there's simply no mesh in the end ! Here's a picture of blockMesh + the initial .stl file : https://drive.google.com/open?id=0B3...GozV01zdjlTZ0E For this one, I chose a point in the .eMesh file and put it to locationInMesh to ensure that I'm in the mesh (is this right ?) I found online the propeller.stl file and the second (that doesn't mesh at all) is imported from SolidWorks in .stl ascii format. Do you have any clue for why it's not even meshing here ? In case you want to see and try, here are the two files : https://drive.google.com/open?id=0B3...HN2a2lIcVhEQlU Sorry again for this probably newbie questions, but OF is really not that easy in the beginning Thank you ! |
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April 25, 2017, 06:39 |
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#2 |
Senior Member
Kal-El
Join Date: Apr 2017
Location: Finland
Posts: 150
Rep Power: 9 |
Your boundary mesh is too coarse.
Read this please: https://cfd.direct/openfoam/user-guide/snappyhexmesh/ What is the refimentLevel on the wall? (refimentSurfaces..) |
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April 25, 2017, 06:40 |
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#3 |
Senior Member
Kal-El
Join Date: Apr 2017
Location: Finland
Posts: 150
Rep Power: 9 |
Do you want mesh inside the propeller? Why? Are you planning to solve it as solid?
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April 25, 2017, 12:09 |
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#4 |
Member
Lilian Chabannes
Join Date: Apr 2017
Posts: 58
Rep Power: 9 |
Hi,
Since I did some improvements but still not really good. For the propeller, it was just an example to try snappy, i'm not gonna do anything on it. For the second case which wasn't working, I was just stupid and my point wasn't inside. But I don't have a good mesh : • initial geometry : https://drive.google.com/file/d/0B3B...ew?usp=sharing • base stl file : https://drive.google.com/file/d/0B3B...ew?usp=sharing • zoom in the mesh : https://drive.google.com/file/d/0B3B...ew?usp=sharing https://drive.google.com/file/d/0B3B...ew?usp=sharing Actually saw the videos of Tobias Holzmann explaining everything to have a good mesh from a .stp file (making waterproof with Salome, good triangulation and export as .stl). Those videos are great really expecially for beginners like me but I have some issues. I work with solidworks, export as .stp but can't open the geometry in SALOME for some reason so what I did is export as .stl, repair the .stl in Blender and then mesh with snappy. This is the result I show and it's not good so actually I'm stuck with this. It's because of the "bad" .stl solidworks is generating probably. And to explain my goals : The geometry you can see is a molded piece. (injection silicone molding) My first goal was to just put a temperature on the boundaries and see the evolution of the cure degree inside the piece with a modified laplacianFoam, which is done. Now I want to see the flow inside during the injection using interFoam. But I need a proper mesh for this. |
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April 26, 2017, 02:27 |
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#5 |
Senior Member
Kal-El
Join Date: Apr 2017
Location: Finland
Posts: 150
Rep Power: 9 |
I think you still need much finer mesh
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May 2, 2017, 09:27 |
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#6 |
Member
Lilian Chabannes
Join Date: Apr 2017
Posts: 58
Rep Power: 9 |
You're right, I've better results, still not as I would like but way better for sure.
https://drive.google.com/open?id=0B3...Vo1OUFuU2lCU2s https://drive.google.com/open?id=0B3...HZzVGVoT0d3cjA https://drive.google.com/open?id=0B3...3BsQVpjR1NmN3c I put 3 layers and sometimes it works well, sometimes not at all (see 3rd screenshot) Do you have any clue of why ? Is it from the base .stl file ? Here is the snappyHexMeshDict file Code:
/*--------------------------------*- C++ -*----------------------------------*\ | ========= | | | \\ / F ield | OpenFOAM: The Open Source CFD Toolbox | | \\ / O peration | Version: 4.x | | \\ / A nd | Web: www.OpenFOAM.org | | \\/ M anipulation | | \*---------------------------------------------------------------------------*/ FoamFile { version 2.0; format ascii; class dictionary; object snappyHexMeshDict; } // * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * // // Which of the steps to run castellatedMesh true; snap true; addLayers true; // Geometry. Definition of all surfaces. All surfaces are of class // searchableSurface. // Surfaces are used // - to specify refinement for any mesh cell intersecting it // - to specify refinement for any mesh cell inside/outside/near // - to 'snap' the mesh boundary to the surface geometry { coupelleascgro.stl { type triSurfaceMesh; name coupelleascgro; } }; // Settings for the castellatedMesh generation. castellatedMeshControls { // Refinement parameters // ~~~~~~~~~~~~~~~~~~~~~ // If local number of cells is >= maxLocalCells on any processor // switches from from refinement followed by balancing // (current method) to (weighted) balancing before refinement. maxLocalCells 100000; // Overall cell limit (approximately). Refinement will stop immediately // upon reaching this number so a refinement level might not complete. // Note that this is the number of cells before removing the part which // is not 'visible' from the keepPoint. The final number of cells might // actually be a lot less. maxGlobalCells 2000000; // The surface refinement loop might spend lots of iterations refining just a // few cells. This setting will cause refinement to stop if <= minimumRefine // are selected for refinement. Note: it will at least do one iteration // (unless the number of cells to refine is 0) minRefinementCells 0; // Number of buffer layers between different levels. // 1 means normal 2:1 refinement restriction, larger means slower // refinement. nCellsBetweenLevels 2; // Explicit feature edge refinement // ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ // Specifies a level for any cell intersected by its edges. // This is a featureEdgeMesh, read from constant/triSurface for now. features ( /*{ file "coupelleascgro.eMesh"; level 0; }*/ ); // Surface based refinement // ~~~~~~~~~~~~~~~~~~~~~~~~ // Specifies two levels for every surface. The first is the minimum level, // every cell intersecting a surface gets refined up to the minimum level. // The second level is the maximum level. Cells that 'see' multiple // intersections where the intersections make an // angle > resolveFeatureAngle get refined up to the maximum level. refinementSurfaces { coupelleascgro { // Surface-wise min and max refinement level level (1 2); } } resolveFeatureAngle 80; // Region-wise refinement // ~~~~~~~~~~~~~~~~~~~~~~ // Specifies refinement level for cells in relation to a surface. One of // three modes // - distance. 'levels' specifies per distance to the surface the // wanted refinement level. The distances need to be specified in // descending order. // - inside. 'levels' is only one entry and only the level is used. All // cells inside the surface get refined up to the level. The surface // needs to be closed for this to be possible. // - outside. Same but cells outside. refinementRegions { } // Mesh selection // ~~~~~~~~~~~~~~ // After refinement patches get added for all refinementSurfaces and // all cells intersecting the surfaces get put into these patches. The // section reachable from the locationInMesh is kept. // NOTE: This point should never be on a face, always inside a cell, even // after refinement. // This is an outside point locationInMesh; locationInMesh (0 0 0); // Inside point // Whether any faceZones (as specified in the refinementSurfaces) // are only on the boundary of corresponding cellZones or also allow // free-standing zone faces. Not used if there are no faceZones. allowFreeStandingZoneFaces true; } // Settings for the snapping. snapControls { //- Number of patch smoothing iterations before finding correspondence // to surface nSmoothPatch 3; //- Relative distance for points to be attracted by surface feature point // or edge. True distance is this factor times local // maximum edge length. tolerance 1.0; //- Number of mesh displacement relaxation iterations. nSolveIter 30; //- Maximum number of snapping relaxation iterations. Should stop // before upon reaching a correct mesh. nRelaxIter 5; // Feature snapping //- Number of feature edge snapping iterations. // Leave out altogether to disable. nFeatureSnapIter 10; //- Detect (geometric) features by sampling the surface implicitFeatureSnap false; //- Use castellatedMeshControls::features explicitFeatureSnap true; //- Detect features between multiple surfaces // (only for explicitFeatureSnap, default = false) multiRegionFeatureSnap true; } // Settings for the layer addition. addLayersControls { // Are the thickness parameters below relative to the undistorted // size of the refined cell outside layer (true) or absolute sizes (false). relativeSizes false; // Per final patch (so not geometry!) the layer information layers { coupelleascgro { nSurfaceLayers 3; } } // Expansion factor for layer mesh expansionRatio 1.3; // Wanted thickness of final added cell layer. If multiple layers // is the thickness of the layer furthest away from the wall. // Relative to undistorted size of cell outside layer. // See relativeSizes parameter. finalLayerThickness 0.0003; // Minimum thickness of cell layer. If for any reason layer // cannot be above minThickness do not add layer. // See relativeSizes parameter. minThickness 0.0001; // If points get not extruded do nGrow layers of connected faces that are // also not grown. This helps convergence of the layer addition process // close to features. nGrow 0; // Advanced settings // When not to extrude surface. 0 is flat surface, 90 is when two faces // are perpendicular featureAngle 30; // Maximum number of snapping relaxation iterations. Should stop // before upon reaching a correct mesh. nRelaxIter 5; // Number of smoothing iterations of surface normals nSmoothSurfaceNormals 1; // Number of smoothing iterations of interior mesh movement direction nSmoothNormals 3; // Smooth layer thickness over surface patches nSmoothThickness 10; // Stop layer growth on highly warped cells maxFaceThicknessRatio 0.5; // Reduce layer growth where ratio thickness to medial // distance is large maxThicknessToMedialRatio 0.3; // Angle used to pick up medial axis points minMedianAxisAngle 90; // Create buffer region for new layer terminations nBufferCellsNoExtrude 0; // Overall max number of layer addition iterations. The mesher will exit // if it reaches this number of iterations; possibly with an illegal // mesh. nLayerIter 50; // Max number of iterations after which relaxed meshQuality controls // get used. Up to nRelaxIter it uses the settings in meshQualityControls, // after nRelaxIter it uses the values in meshQualityControls::relaxed. nRelaxedIter 20; } // Generic mesh quality settings. At any undoable phase these determine // where to undo. meshQualityControls { #include "meshQualityDict" // Optional : some meshing phases allow usage of relaxed rules. // See e.g. addLayersControls::nRelaxedIter. relaxed { //- Maximum non-orthogonality allowed. Set to 180 to disable. maxNonOrtho 80; maxBoundarySkewness 20; maxInternalSkewness 5; maxConcave 80; } // Advanced //- Number of error distribution iterations nSmoothScale 4; //- Amount to scale back displacement at error points errorReduction 0.75; } // Advanced // Write flags writeFlags ( scalarLevels // write volScalarField with cellLevel for postprocessing layerSets // write cellSets, faceSets of faces in layer layerFields // write volScalarField for layer coverage ); // Merge tolerance. Is fraction of overall bounding box of initial mesh. // Note: the write tolerance needs to be higher than this. mergeTolerance 1E-6; // ************************************************************************* // |
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May 3, 2017, 10:40 |
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#7 |
Member
Lilian Chabannes
Join Date: Apr 2017
Posts: 58
Rep Power: 9 |
Problems solved,
I finally managed to have .step file for the model I wanted instead of .stl. Then I followed the youtube tutorial made by Tobias Holzmann (they are awesome, big thanks to this guy) and I have now a good mesh. Thank you KaLium |
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