![]() From small to large there are microgrids, wide area synchronous grids, and super grids. Electrical grids vary in size and can cover whole countries or continents. Electrical grids consist of power stations (often located near sources of energy and away from heavily populated areas), electrical substations to step voltage up or down, electric power transmission to carry power long distances, and lastly electric power distribution to individual customers, where voltage is stepped down again to the required service voltage(s). Use the reset view tool to return to the original view.įigure 1 illustrates how Abaqus/CAE determines the sketch plane orientation relative to a three-dimensional part after you select a face, an edge, and the orientation of the edge on the Sketcher grid.An electrical grid (or electricity network) is an interconnected network for electricity delivery from producers to consumers. If you are unsure of the part's or assembly's orientation relative to the sketch plane, use the view manipulation tools to examine the sketch plane and the object on which you are sketching. For more information, see Using the sketch method to partition faces. ![]() When you are partitioning faces using the sketch method in the Partition toolset, Abaqus/CAE orients the view based upon the modeling space of the part or assembly and the type of faces you selected to partition. For details of the resulting view orientation, see Adding a swept solid feature Adding a swept shell feature and Creating a swept cut. When you are adding a swept feature, you must sketch a sweep path and sweep profile. When you are sketching a feature other than a cut (for example, an extruded solid), Abaqus/CAE orients the view so that the resulting feature will protrude out of the screen toward you. ![]() When you are sketching a cut feature in the Part module, Abaqus/CAE orients the view so that the resulting feature will cut away from you and into the screen. The orientation of the view on the Sketcher grid also depends on the type of feature you are creating: You can select a curved edge, but the resulting orientation of the part or assembly is system dependent.Ībaqus/CAE highlights the selected edge, enters the Sketcher, and rotates the part until the selected edge aligns with the grid in the desired orientation. You can select a datum axis, or you can select one of the axes of a datum coordinate system but you cannot select the edge of a datum plane. ![]() You can select any edge from the part or assembly that is not perpendicular to the selected plane. Alternatively, you can choose a different orientation for the edge in the Sketcher grid before you select the edge for example, horizontal and on the top of the Sketcher grid. By default, the selected edge will appear vertical and on the right side of the Sketcher grid. Select the plane on which to sketch by selecting appropriate geometry for example, a face of a part or a datum plane. When you add a feature to a three-dimensional part or assembly, you must use the following technique to control the orientation of the view relative to the Sketcher grid: ( Abaqus/CAE derives the X- and Y-axes of the part from the axes of the sketch that defined the base feature.) Three-dimensional modeling space When you add a planar feature to a two-dimensional or axisymmetric part or assembly, Abaqus/CAE starts the Sketcher and aligns the X- and Y-axes of the part with the axes of the Sketcher grid, regardless of the type of feature you are creating. ![]() Two-dimensional or axisymmetric modeling space ![]()
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |