WORKSHOP 17 PARASOLID MODELING

WS15-2 NAS120, Workshop 15, May 2006 Copyright 2005 MSC.Software Corporation

WS15-3 NAS120, Workshop 15, May 2006 Copyright 2005 MSC.Software Corporation l Workshop Objectives l Create a parasolid model of a tension fitting using a number of the parasolid tools in MSC.Patran

WS15-4 NAS120, Workshop 15, May 2006 Copyright 2005 MSC.Software Corporation l Suggested Exercise Steps 1. Create a new database for the tension fitting model. 2. Create all the necessary 2D Geometry. 3. Extrude the surface to begin creating the solid model. 4. Create a solid shell by removing part of the solid. 5. Create fillets for all inside edges of the solid. 6. Create holes for the model by creating solid cylinders that pass through it, and then use boolean to subtract the cylinders. 7. Create cylinders to imprint the model. 8. Imprint the solid using the cylinders. 9. Delete the cylinders used for imprinting. 10. TetMesh the completed solid 11. Create loads and constraints on the model that will be used in the analysis. 12. Create material properties for the model. 13. Create the 3D element properties. 14. Check to see that the load case Default has the load and constraint. 15. Run the analysis by sending the model to MSC.Nastran. 16. Access the results by attaching the XDB file. 17. Post-process the results from MSC.Nastran.

WS15-5 NAS120, Workshop 15, May 2006 Copyright 2005 MSC.Software Corporation Step 1. Create New Database for Tension Fitting Create a new database called tension_fitting.db. a.File / New. b.Enter tension_fitting as the file name. c.Click OK. d.Choose Tolerance Based on Model. e.Select MSC.Nastran as the Analysis Code. f.Select Structural as the Analysis Type. g.Click OK. a bc d e f g

WS15-6 NAS120, Workshop 15, May 2006 Copyright 2005 MSC.Software Corporation Step 2. Create Surface Create the Geometry for the tension fitting. a.Geometry: Create / Surface / XYZ. b.Enter for Vector Coordinates List. c.Enter [0 0 0] for Origin Coordinates List. d.Click Apply. a b c d

WS15-7 NAS120, Workshop 15, May 2006 Copyright 2005 MSC.Software Corporation Step 2. Create Surface (Cont.) Copy points at opposite corners. a.Click increase Point Size icon to show all points enlarged. b.Geometry: Transform / Point / Translate. c.Enter for Direction Vector. d.Click in the Point List box. e.Click on the top-left corner. f.Enter for Translation Vector. g.Click in the Point List box. h.Click on the bottom-right corner. a e h b c f d g

WS15-8 NAS120, Workshop 15, May 2006 Copyright 2005 MSC.Software Corporation Step 2. Create Surface (Cont.) Create a curve by connecting the two translated points. a.Geometry: Create / Curve / Point. b.Click on one of the two translated points as the starting point and the other as the ending point. a b b

WS15-9 NAS120, Workshop 15, May 2006 Copyright 2005 MSC.Software Corporation Step 2. Create Surface (Cont.) Break the surface with the sloped curve. a.Geometry: Edit / Surface / Break. b.Select the rectangular surface for the Surface List and the sloped curve for the Break Curve List. c.Click Yes when message box appears. d.Click the Refresh Graphics icon. a b c d

WS15-10 NAS120, Workshop 15, May 2006 Copyright 2005 MSC.Software Corporation Step 2. Create Surface (Cont.) Delete the upper surface (above the break curve). a.Geometry: Delete / Surface. b.Click on the triangular surface for the Surface List. c.Click Apply. a b c

WS15-11 NAS120, Workshop 15, May 2006 Copyright 2005 MSC.Software Corporation Create a parasolid solid by extruding the surface in the z-direction. a.Geometry: Create / Solid / Extrude. b.Make sure TetMeshable solid icon is selected. c.Enter for the Translation Vector. d.Click in the surface list box and then click on the surface. e.Click Iso1 view. f.Click the Smooth- shaded icon. Step 3. Extrude the Surface to Create Solid a b d e f c

WS15-12 NAS120, Workshop 15, May 2006 Copyright 2005 MSC.Software Corporation Step 4. Create a solid shell Edit the solid using the shell method to create a shelled solid. a.Geometry: Edit / Solid / Shell b.Enter 0.25 for Thickness and turn off Auto Execute. c.Click on Solid Face List and hold down the shift key and select the top, sloped, and front faces of the solid. d.Click Apply. a b d c c

WS15-13 NAS120, Workshop 15, May 2006 Copyright 2005 MSC.Software Corporation Step 5. Create Fillets Create the fillets on the inner edges of the solid. a.Geometry: Edit / Solid / Edge Blend. b.Make sure that the constant radius icon is selected. c.Enter 0.25 for Constant Radius. d.Make sure Edges of Solid icon is selected. e.Click on Solid Edge List and screen pick the two edges on the inside bottom of the solid. f.Screen pick the inside rear edge of the solid, as shown. (Patran will automatically blend the two remaining inner edges.) a b c d e f e It may be necessary to rotate the object in order to see then inner edges more easily. This can be done by holding the middle mouse button and moving the mouse.

WS15-14 NAS120, Workshop 15, May 2006 Copyright 2005 MSC.Software Corporation Step 6. Create Holes for the Tension Fitting Create the holes for the tension fitting by creating primitive solids that pass through the solid, then subtracting them. a.Geometry: Create / Solid / Primitive. b.Select the cylinder icon c.Enter 2.0 for the Height and 0.25 for the radius. d.Enter [ ] for the Base Center Point List and Coord 0.1 for the Axis List. e.Click Apply. f.Geometry : Edit / Solid / Boolean. g.Select Subtract icon. h.Select the tension fitting for the Target Solid. i.Select the cylinder for the Subtracting Solid List. a b c d e f g h i

WS15-15 NAS120, Workshop 15, May 2006 Copyright 2005 MSC.Software Corporation Step 6. Create Holes for the Tension Fitting (Cont.) Create the points where the three bottom holes will be placed by translating an existing point and, then translating again. a.Click Wireframe icon. b.Geometry: Create / Point / Extract. c.Select the Curve Icon. d.Click in the curve list box and select the curve as shown. e.Geometry: Transform / Point / Translate. f.Enter for Direction Vector. g.Click in the point list box and select the new point. h.Enter for Direction Vector. i.Enter 2 for repeat count. j.Select the translated point. a b c d h i e f g j j

WS15-16 NAS120, Workshop 15, May 2006 Copyright 2005 MSC.Software Corporation Step 6. Create Holes for the Tension Fitting (Cont.) Create cylinders and then holes by subtracting them from the solid. a.Geometry: Create / Solid / Primitive. b.Select cylinder icon. c.Enter -1.0 for Height List and for Radius List. d.Turn off Auto Execute. e.Shift-click to select the three translated points for Base Center Point List. f.Enter Coord 0.2 for axis list and click Apply. g.Click Smooth Shaded icon. h.Geometry: Edit / Solid / Boolean. i.Select subtract icon and turn off Auto Execute. j.Select tension fitting as Target Solid. k.Shift-click all three cylinders for Subtracting Solid List. l.Click Apply. It may be necessary to rotate the object several times in order to select the cylinders with ease a b c e f h i j j l k d g

WS15-17 NAS120, Workshop 15, May 2006 Copyright 2005 MSC.Software Corporation Step 7. Create Cylinder to Imprint Tension Fitting Create a point in the center of the large hole in order to create a cylinder to imprint onto the solid. Then create the cylinder that will be used for imprinting. a.Click Wireframe icon. b.Geometry: Create / Point / ArcCenter. c.Select the hole edge. d.Geometry: Create / Solid / Primitive. e.Select cylinder icon f.Enter 1.0 for Height and for Radius. g.Click on point in the center of the big hole. h.Enter Coord 0.1 for Axis List. i.Click Apply. j.Click Smooth Shaded icon. a b c c g d f g h i e j

WS15-18 NAS120, Workshop 15, May 2006 Copyright 2005 MSC.Software Corporation Step 8. Imprint the Solid Use the cylinder to imprint the solid and then delete the cylinder, resulting in the finished solid. a.Geometry: Edit / Solid / Imprint. b.Select the tension fitting for the Solid List (A). c.Select the cylinder for the Solid to Imprint List (B). The solid may seem unchanged, but the imprint on the solid will not be visible until the the cylinder has been deleted. a c b

WS15-19 NAS120, Workshop 15, May 2006 Copyright 2005 MSC.Software Corporation Step 9. Delete the Cylinders Delete the cylinder and make sure imprint method was completed. a.Geometry: Delete / Solid b.Select the cylinder for Solid List. c.Click Apply. a b c

WS15-20 NAS120, Workshop 15, May 2006 Copyright 2005 MSC.Software Corporation Step 10. TetMesh the Completed Solid Create the TetMesh for the tension fitting. a.Elements : Create / Mesh / Solid. b.Make sure Tet, TetMesh, and Tet10 are all selected. c.Click on Input List and select the solid. d.Remove check for Automatic Calculation and enter 0.25 for Global Edge Length. e.Click Apply. a b c d e

WS15-21 NAS120, Workshop 15, May 2006 Copyright 2005 MSC.Software Corporation Step 11. Create Loads and Constraints Create the loads and constraints for the model. a.Click Refresh Graphics icon b.Loads/BCs: Create / Total Load / Element Uniform. c.Enter Force as the New Set Name. d.Click Input Data… e.Enter for the Load and click OK. f.Click Select Application Region… g.Select the annular face created by imprinting at the larger hole, then click Add. h.Click OK i.Click Apply. a e g h Illustrated here is the desired application region. g b c d f i

WS15-22 NAS120, Workshop 15, May 2006 Copyright 2005 MSC.Software Corporation Step 11. Create Loads and Constraints (Cont.)

WS15-23 NAS120, Workshop 15, May 2006 Copyright 2005 MSC.Software Corporation Step 11. Create Loads and Constraints (Cont.) Create the constraints on the base holes. a.Loads/BCs: Create / Displacement / Nodal. b.Enter Fixed as New Set Name. c.Click Input Data… d.Enter for Translation only, and click OK. e.Click Select Application Region. f.Click on Select Geometry Entities. g.Select Surface or Face icon h.Shift-click the cylindrical surfaces at the three holes on the base, and Click Add. i.Click OK. j.Click Apply. d f g h i h Illustrated here is the desired application region for one of the three holes. a b c e j

WS15-24 NAS120, Workshop 15, May 2006 Copyright 2005 MSC.Software Corporation Step 11. Create Loads and Constraints (Cont.)

WS15-25 NAS120, Workshop 15, May 2006 Copyright 2005 MSC.Software Corporation Step 12. Create Material Properties Create the material properties for the model. a.Materials: Create / Isotropic / Manual Input b.Enter Aluminum for Material Name. c.Click Input Properties… d.Enter 10E6 for Elastic Modulus and 0.3 for the Poisson Ratio. e.Click OK f.Click Apply. a b d c e f

WS15-26 NAS120, Workshop 15, May 2006 Copyright 2005 MSC.Software Corporation Step 13. Create 3D Element Properties Create the 3D element properties for the tension fitting. a.Properties: Create / 3D / Solid. b.Enter 3D_tets for Property Set Name. c.Click Input Properties… d.Click on the Select Material Icon. e.Select Aluminum. f.Click OK g.Select the solid for Application Region, and click Add. h.Click Apply. d f e a b c g h

WS15-27 NAS120, Workshop 15, May 2006 Copyright 2005 MSC.Software Corporation Step 14. Check the Load Case Check the load case Default to make sure that the load and constraint are selected. a.Load Cases: Modify b.Click on the load case name Default. c.Check to see that both the load and constraints are assigned. d.Click Cancel. c d a b

WS15-28 NAS120, Workshop 15, May 2006 Copyright 2005 MSC.Software Corporation Step 15. Run the Analysis Run the Analysis with MSC.Nastran. a.Analysis: Analyze / Entire Model / Full Run. b.Click Translation Parameters... c.Make sure both XDB and Print are selected for Data Output. d.Click OK. e.Click Solution Type… f.Make sure LINEAR STATIC is selected. g.Click OK. h.Click Apply. a b e f g h c d

WS15-29 NAS120, Workshop 15, May 2006 Copyright 2005 MSC.Software Corporation Step 16. Access the Results Attach the XDB file to access the results. a.Analysis: Access Results / Attach XDB / Result Entities. b.Click Select Results File… c.Select tension_fitting.xdb and click OK. d.Click Apply. c a b d

WS15-30 NAS120, Workshop 15, May 2006 Copyright 2005 MSC.Software Corporation Step 17. Display Results Create a deformation plot a.Results: Create / Deformation. b.Select Displacements, Transitional from Select Deformation Result. c.Click Apply. a b c

WS15-31 NAS120, Workshop 15, May 2006 Copyright 2005 MSC.Software Corporation Step 17. Display Results (Cont.) Erase the geometry and do not show the undeformed model, so that only the deformed model is shown. a.Display: Plot/Erase… b.Click Erase under Geometry. c.Click OK. d.Click Display Attributes. e.Remove check from Show Undeformed. f.For the Render Style, choose Shaded. g.Click Apply. a b c d e g f

WS15-32 NAS120, Workshop 15, May 2006 Copyright 2005 MSC.Software Corporation Step 17. Display Results (Cont.)

WS15-33 NAS120, Workshop 15, May 2006 Copyright 2005 MSC.Software Corporation Step 17. Read Results (Cont.) Plot the von Mises stress for the model. a.Results: Create / Fringe. b.Select Stress Tensor from Select Fringe Result. c.Select Display Attributes, then set Display to Element Edges d.Click Apply. e.Now turn off averaging and plot the stresses again. a b c d c

WS15-34 NAS120, Workshop 15, May 2006 Copyright 2005 MSC.Software Corporation Step 17. Read Results (Cont.)