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Solid Conductor

Chapter 6. Solid Conductor. Workshop 5. WS05: Solid Conductor. Workshop #5: Solid Conductor

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Solid Conductor

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  1. Chapter 6 Solid Conductor Workshop 5

  2. WS05: Solid Conductor • Workshop #5: Solid Conductor • A DC energized coil is wrapped around a permeable C core. The geometry of the core and coil are available on a parasolids file and are imported into Workbench. The geometry is cut in half and the resulting half symmetry model is solved. The current distribution in conductors modeled in this manner is that of a DC energized solid conductor (NOT uniform over the cross section as with stranded conductors and NOT subject to redistribution due to the skin effect). • Although the current distribution is that of a single turn solid conductor, the number of turns specified for such conductors may be greater than one. Error introduced by approximating stranded coils in this manner is usually acceptable for most applications. C Core with DC energized coil Current distribution in coil March 4, 2005 Inventory #002210 6-2

  3. WS05: Solid Conductor • Import parasolids geometry on file magnet_assem.x_t. 1 2 3 4 (RMB) 4 March 4, 2005 Inventory #002210 6-3

  4. WS05: Solid Conductor • Create a spherical enclosure with a 225 mm cushion. Ensure that the “Merge Parts?” value is set to “Yes”. 1 2 March 4, 2005 Inventory #002210 6-4

  5. WS05: Solid Conductor • We wish to create a half symmetry model. In order to cut the imported geometry, it must first be “frozen”. 1 C Core with DC energized coil Current distribution in coil March 4, 2005 Inventory #002210 6-5

  6. WS05: Solid Conductor • Create a slice plane. Select the global ZXPlane to be the base plane of the slice. 1 4 2 March 4, 2005 Inventory #002210 6-6 3

  7. WS05: Solid Conductor • Hold the Ctrl button down and use the LMB to select the 3 parts labeled “Solid” in the tree. The RMB will produce the drop down menu shown at right. Select “Suppress Body” to eliminate upper portions of the geometry from further consideration. 1: Ctrl + LMB 2 March 4, 2005 Inventory #002210 6-7

  8. WS05: Solid Conductor • Save the design modeler geometry and click on the Project tab. Select “New Simulation”. Choose Emag Branch in the simulation wizard to help guide you through the simulation process. March 4, 2005 Inventory #002210 6-8

  9. WS05: Solid Conductor • Select “Magnet” in the tree and import SA1010 steel material properties to be associated with it. • Select “Coil” in the tree and import “Copper Alloy”. 4 1 5 6 Material selection for coil 2 3 March 4, 2005 Inventory #002210 6-9

  10. WS05: Solid Conductor • Graphically select the core and right click on Mesh in the tree to assign an element size 0f 0.03 to the core. 2 (RMB) 3 1 4 March 4, 2005 Inventory #002210 6-10

  11. WS05: Solid Conductor • Insert another element size specification, this time on the pole face surfaces. Set the pole face size to 0.005 m. 3 1 (RMB) 2 6 4 5 March 4, 2005 Inventory #002210 6-11

  12. WS05: Solid Conductor • Insert a conductor under Environment in the tree. Graphically pick the coil and click apply in “Details”. Set the number of turns to 386. 3 4 1 (RMB) 5 2 March 4, 2005 Inventory #002210 6-12

  13. WS05: Solid Conductor • Insert a zero voltage boundary on the conductor. Graphically pick one of the cut surfaces of the coil and click apply in “Details”. • Additionally, insert a 50 A current to the other exposed face of the coil on the symmetry plane (not shown). 3 4 1 (RMB) 5 2 March 4, 2005 Inventory #002210 6-13

  14. WS05: Solid Conductor • Insert a flux parallel boundary condition on the spherical exterior of the enclosure and on the symmetry plane. Hold down the Ctrl button as you use the LMB to pick the surfaces. Click Apply in Details when done. 3 1 (RMB) 2 March 4, 2005 Inventory #002210 6-14

  15. WS05: Solid Conductor • Create a selection group by graphically selecting the core and selecting the “Create Selections Group” button. Name the selection magnet. This name will be referenced in a command file that we will read in next. The command file will produce a contour plot of relative permeability as a post processing operation. 3 1 4 5 2 March 4, 2005 Inventory #002210 6-15

  16. WS05: Solid Conductor • Insert commands under Solutions in the tree. RMB on “Commands” in the tree and import the file mur.txt. • Click on Solve. 6 3 1 (RMB) 2 4 5 March 4, 2005 Inventory #002210 6-16

  17. WS05: Solid Conductor Plot the calculated flux density. 2 1 March 4, 2005 Inventory #002210 6-17

  18. WS05: Solid Conductor Display relative permeability contour created by macro file mur.txt. 1 March 4, 2005 Inventory #002210 6-18

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