WORKSHOP 8C TENSION COUPON
WS8C-2 NAS120, Workshop 8C, May 2006 Copyright 2005 MSC.Software Corporation
WS8C-3 NAS120, Workshop 8C, May 2006 Copyright 2005 MSC.Software Corporation l Workshop Objectives l Practice geometry creation techniques. l Practice iso meshing techniques.
WS8C-4 NAS120, Workshop 8C, May 2006 Copyright 2005 MSC.Software Corporation l Suggested Exercise Steps 1. Create a new database. 2. Create a geometry model of the tension coupon. 3. Use Mesh Seeds to define the mesh density. 4. Create a finite element mesh. 5. Verify the finite element mesh. 6. Define material properties. 7. Define element properties and apply them to the model. 8. Apply boundary conditions to the model. 9. Apply loads to the model. 10. Submit the model to MSC.Nastran for analysis. 11. Post Process results using MSC.Patran.
WS8C-5 NAS120, Workshop 8C, May 2006 Copyright 2005 MSC.Software Corporation b c d e f g Step 1. Create New Database Create a new database called tension_coupon.db a.File / New. b.Enter tension_coupon_c as the file name. c.Click OK. d.Choose Default Tolerance. e.Select MSC.Nastran as the Analysis Code. f.Select Structural as the Analysis Type. g.Click OK. a
WS8C-6 NAS120, Workshop 8C, May 2006 Copyright 2005 MSC.Software Corporation Step 2. Create Geometry Create two arcs a.Geometry: Create / Curve / 2D ArcAngles. b.Enter 0 for the Start Angle. c.Enter 45 for the End Angle. d.Enter [5 2 0] for the Center Point List. e.Click Apply. f.Repeat the procedure with 45 as the Start Angle and 90 as the End Angle. a b c d e
WS8C-7 NAS120, Workshop 8C, May 2006 Copyright 2005 MSC.Software Corporation Step 2. Create Geometry Create two more curves. a.Geometry: Create / Curve / XYZ. b.Enter for the Vector Coordinates List. c.Enter [7 2 0] for the Origin Coordinates List. d.Click Apply. e.Repeat the procedure using as the vector and [5 4 0] as the origin. a b c d
WS8C-8 NAS120, Workshop 8C, May 2006 Copyright 2005 MSC.Software Corporation Step 2. Create Geometry Create two surfaces a.Geometry: Create / Surface / Curve. b.Screen pick the top curve as shown. c.Screen pick the upper arc. d.Screen pick the right curve as shown. e.Screen pick the lower arc. f.Turn on display lines. a b c e d f
WS8C-9 NAS120, Workshop 8C, May 2006 Copyright 2005 MSC.Software Corporation Step 2. Create Geometry Create an extruded surface a.Geometry: Create / Surface / Extrude. b.Enter as the Translation Vector. c.Click in the Curve List box, then screen pick the right curve as shown. a c b
WS8C-10 NAS120, Workshop 8C, May 2006 Copyright 2005 MSC.Software Corporation Step 2. Create Geometry Mirror the surfaces a.Geometry: Transform / Surface / Mirror. b.Set the Mirror Plane Normal to Coord 0.2. c.For the Offset enter 2. d.Click in the Surface List box. e.Rectangular select all the surfaces as shown. a c b e d
WS8C-11 NAS120, Workshop 8C, May 2006 Copyright 2005 MSC.Software Corporation Step 2. Create Geometry Mirror the surfaces again a.Geometry: Transform / Surface / Mirror. b.Set the Mirror Plane Normal to Coord 0.1. c.For the Offset enter 5. d.Click in the Surface List box. e.Rectangular select all the surfaces as shown. a b c e d
WS8C-12 NAS120, Workshop 8C, May 2006 Copyright 2005 MSC.Software Corporation Step 2. Create Geometry The mirrored surfaces should look like the picture on the right. a.Turn off display lines a
WS8C-13 NAS120, Workshop 8C, May 2006 Copyright 2005 MSC.Software Corporation Step 3. Create Mesh Seeds Create a uniform mesh seed a.Elements: Create / Mesh Seed / Uniform. b.Enter 3 for the Number of Elements. c.Click in the Curve List box. d.Screen pick each of the four edges on the left and right sides of the circle as shown. a b c d
WS8C-14 NAS120, Workshop 8C, May 2006 Copyright 2005 MSC.Software Corporation Step 3. Create Mesh Seeds a b c d Create a biased mesh seed a.Elements: Create / Mesh Seed / One Way Bias. b.Enter 6 for the Number of Elements. c.Enter 4 for L2/L1. d.Click on the Curve List box. e.Screen pick three of the remaining edges on the circle as shown. e
WS8C-15 NAS120, Workshop 8C, May 2006 Copyright 2005 MSC.Software Corporation Step 3. Create Mesh Seeds Create a biased mesh seed a.Elements: Create / Mesh Seed / One Way Bias. b.Enter 6 for the Number of Elements. c.Enter 0.25 (or -4) for L2/L1. d.Click on the Curve List box. e.Screen pick the 1 remaining edge on the circle. f.Screen pick the horizontal edge to the right of the circle. a b c d e f
WS8C-16 NAS120, Workshop 8C, May 2006 Copyright 2005 MSC.Software Corporation The mesh seeds should agree with the picture on the right. Step 3. Create Mesh Seeds
WS8C-17 NAS120, Workshop 8C, May 2006 Copyright 2005 MSC.Software Corporation Step 4. Create Mesh Create a finite element mesh a.Elements: Create / Mesh / Surface. b.Set the Element Shape to Quad, Mesher to IsoMesh, and Topology to Quad4. c.Click in the Surface List box. d.Rectangular pick the surfaces as shown. e.Enter 0.5 as the value for Global Edge Length. f.Click Apply. a b c f e d
WS8C-18 NAS120, Workshop 8C, May 2006 Copyright 2005 MSC.Software Corporation Step 4. Create Mesh Equivalence the model a.Elements: Equivalence / All / Tolerance Cube. b.Click Apply. a b
WS8C-19 NAS120, Workshop 8C, May 2006 Copyright 2005 MSC.Software Corporation Step 5. Verify Mesh Verify the quality of the finite elements a.Elements: Verify / Quad / All. b.Click Apply. c.When Message box appears, click OK. d.Review the summary table. a b c d
WS8C-20 NAS120, Workshop 8C, May 2006 Copyright 2005 MSC.Software Corporation Step 5. Verify Mesh Perform specific quality tests on the elements. a.Elements: Verify / Quad / Aspect. b.Click Apply. c.When Message box appears, click OK. d.Review the fringe plot. e.Repeat for Warp, Skew, and Taper tests. f.Reset Graphics. a b d e c d f
WS8C-21 NAS120, Workshop 8C, May 2006 Copyright 2005 MSC.Software Corporation Step 5. Create Material Properties Create an isotropic material a.Materials: Create / Isotropic / Manual Input. b.Enter aluminum as the Material Name. c.Click Input Properties. d.Enter 10e6 for the elastic modulus and 0.3 for the Poisson Ratio. e.Click OK. f.Click Apply. d e a b c f
WS8C-22 NAS120, Workshop 8C, May 2006 Copyright 2005 MSC.Software Corporation Step 6. Create Element Properties Create element properties a.Properties: Create / 2D / Shell. b.Enter plate as the Property Set Name. c.Click Input Properties. d.Click on the Select Material Icon. e.Select aluminum as the material. f.Enter for the thickness. g.Click OK. d f g e a b c
WS8C-23 NAS120, Workshop 8C, May 2006 Copyright 2005 MSC.Software Corporation Step 6. Create Element Properties Select application region a.Click in the Select Members box. b.Rectangular pick the surfaces as shown. c.Click Add. d.Click Apply. a c d b
WS8C-24 NAS120, Workshop 8C, May 2006 Copyright 2005 MSC.Software Corporation Step 7. Apply Boundary Conditions Create the boundary condition a.Loads/BCs: Create / Displacement / Nodal. b.Enter fixed as the New Set Name. c.Click Input Data. d.Enter for Translations and for Rotations. e.Click OK. d e a b c
WS8C-25 NAS120, Workshop 8C, May 2006 Copyright 2005 MSC.Software Corporation Step 7. Apply Boundary Conditions Apply the boundary condition a.Click Select Application Region. b.Select the Curve or Edge filter. c.Select the bottom left edge of the surface. d.Click Add. e.Select the top left edge of the surface. f.Click Add. g.Click OK. h.Click Apply. g b c e d f a h
WS8C-26 NAS120, Workshop 8C, May 2006 Copyright 2005 MSC.Software Corporation Step 7. Apply Boundary Conditions The boundary condition should agree with whats shown on the right
WS8C-27 NAS120, Workshop 8C, May 2006 Copyright 2005 MSC.Software Corporation Step 8. Apply Loads Create the load a.Loads/BCs: Create / Total Load / Element Uniform. b.Enter force as the New Set Name. c.Set the Target Element Type to 2D. d.Click Input Data. e.Enter for the Edge Load. f.Click OK. e f d b c a
WS8C-28 NAS120, Workshop 8C, May 2006 Copyright 2005 MSC.Software Corporation Apply the load a.Click Select Application Region. b.For the application region select the right edge of the top right surface as shown. c.Click Add. d.Select the right edge of the bottom right surface. e.Click Add. f.Click OK. g.Click Apply. Step 8. Apply Loads b c f e d a g
WS8C-29 NAS120, Workshop 8C, May 2006 Copyright 2005 MSC.Software Corporation Step 8. Apply Loads The loads and boundary condition should agree with whats shown on the right.
WS8C-30 NAS120, Workshop 8C, May 2006 Copyright 2005 MSC.Software Corporation Step 9. Run Linear Static Analysis Analyze the model a.Analysis: Analyze / Entire Model / Full Run. b.Click Solution Type. c.Choose Linear Static. d.Click OK. e.Click Apply. d c a e b
WS8C-31 NAS120, Workshop 8C, May 2006 Copyright 2005 MSC.Software Corporation Step 10. Post Process with MSC.Patran Attach the results file a.Analysis: Access Results / Attach XDB / Result Entities. b.Click Select Results File. c.Choose the results file tension_coupon_c.xdb. d.Click OK. e.Click Apply. a b c e d
WS8C-32 NAS120, Workshop 8C, May 2006 Copyright 2005 MSC.Software Corporation Step 10. Post Process with MSC.Patran Erase geometry a.Display: Plot/Erase. b.Under Geometry click Erase. c.Click OK. a b c
WS8C-33 NAS120, Workshop 8C, May 2006 Copyright 2005 MSC.Software Corporation Step 10. Post Process with MSC.Patran Create a Quick Plot of X Component Stress a.Results: Create / Quick Plot. b.Select Stress Tensor as the Fringe Result. c.Select X Component as the Fringe Result Quantity. d.Click Apply. e.Record the maximum X component stress. Max X Stress = ________ a b c d
WS8C-34 NAS120, Workshop 8C, May 2006 Copyright 2005 MSC.Software Corporation Step 10. Post Process with MSC.Patran Turn off averaging a.Results: Create / Fringe. b.Select Stress Tensor as the Fringe Result. c.Select X Component as the result quantity. d.Click on the Plot Options Icon. e.Change the Coordinate Transformation to CID. f.Select Coordinate 0. g.Change the Averaging Definition Domain to None. h.Click Apply. Max X Stress = ________ a b c d g h f e