Simultaneously Saving All Parts and Exiting. Applications. Our previous efforts to prepare the NX self-guiding tutorial were funded by the. Nx Tutorial - Download as PDF File .pdf), Text File .txt) or read online. Figure 5. To complete this revolution. NX Lesson 2 – Drawing a Part Document. Nx 7.5 Tutorial Pdf Download. by Nellat. /. about. Nx Tutorial Pdf Download aracer.mobi vacon,,nxs/p,,user,,manual.
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Our previous efforts to prepare the NX self-guiding tutorial were funded by the National . You will learn how to create a drawing from a part model in chapter 5. Unigraphics NX (Electronic Data Systems Corp - EDS) Unigraphics NX Tutorial Update (Daniel Prescott) NX Advanced FEM (Version NX 5) (Siemens) . Important and significant version changes between Unigraphics NX release . The next lesson of positioning of multiple holes contained in the NX 5 tutorial.
Also, set the angle between lines 2 and 3 to degrees using the same approach double-click the angle and change the value.
It should look like Figure 8. You can now click the Finish Sketch button to move to the next step. To complete this revolution, select the Revolve option from the Feature toolbar Figure 9. It may be nested under Extrude, if so click the down arrow. Figure 9 - Revolve The Revolve dialog will open. The information required to complete this feature includes the drawing elements to revolve, the vector of revolution and the revolution angle. For this part, select the sketch drawn in the previous step Figure This vector sets the axis the sketch is revolved about and the direction the revolution angle is measured from.
Open the Vector Dialog Figure 11 to pick this vector.
Select line 5, a yellow arrow will appear that shows the positive sense of the revolution vector. Click OK to close the vector dialog Figure Figure 12 - Picking the Vector Since the sketch needs to be revolved completely about the vector, leave the start and end angles at 0 and degrees respectively. Click OK on the Revolve dialog to complete the revolution. The part should look like the one shown in Figure 2.
Sketching on a Surface The next step in drawing the part is to create the rectangular projection Figure To create this feature, a sketch can be made on the top surface of the base and then extruded.
To sketch on a surface, click the Sketch button in the Sketching toolbar. Instead of picking an axis-plane, select the surface on the top of the base Figure Figure 14 - Creating the Sketch Once selected, a sketch coordinate system will appear.
This defines the coordinates to be used when creating the new sketch. By default, the Z axis of this coordinate system will be perpendicular to the plane of the surface used to define the sketch. Click OK to start the sketch. Orient the view to sketch plane. To draw the sketch for the rectangular projection, use the Rectangle tool in the Sketching toolbar. After selecting this tool, click to place the upper left corner of the rectangle then click again to place the lower-right.
Dont worry about the exact placement, like before dimensions will be used to place it. The sketch should look like Figure These can be changed to precisely locate and size the rectangle. Change the height and width of the rectangle to 10mm. Now change the vertical and horizontal offsets from the sketch origin to 5mm half of 10mm.
This will center the rectangle and correctly set its size Figure Finish the sketch. Figure 16 - Editing Dimensions To extrude the sketch, click the Extrude button in the Feature toolbar.
Select the square profile from the sketch Figure Placing the Holes To place the holes in the rectangular position of the piston Figure 18 , use the Hole feature in the Feature toolbar.
The Hole dialog will open. The location for the holes must now be defined.
To place the first hole the one closest to the end , move the cursor to the face where the hole needs to be located Figure 19 and click in the rough location of the holes center once again, precision isnt important here just get close. Once you click, a new sketch will be started on the face selected Figure Click below this point to set the next hole start location Figure You will now need to set the dimensions to their exact values. In this case, center the holes by setting the horizontal and vertical dimensions to 5mm.
See Figure 22 for reference. You will be returned to the Hole dialog. Click OK to add the hole features Figure The part should look like the one shown in Figure To add the edge blend, select the Edge Blend feature from the Features toolbar Figure Figure 24 - Adding the Edge Blend Set the radius to 2mm and select the first edge to be blended.
Select the next edge and then rotate the part to select the last two edges. As you select the edges, a preview of the blend will appear. Click OK to add the feature. The result should look like Figure These features can be placed in several ways. The original sketch that was revolved can be edited to include the profile of these grooves.
Alternatively, the grooves can be added using the Groove feature. This sets the base of the groove to have sharp corners. A Ball End groove can be used that has a rounded profile at the base of the groove. The next step is to select the placement face. Click the outer surface of the base Figure Digitally transform part manufacturing using one integrated software system to program CNC machine tools, control robotic cells, drive 3D printers and monitor product quality.
You must be a registered user to add a comment. The self-guiding tutorial takes the reader through a step-by-step approach to nc7. Tecnomatix helps students create digital twins of Otherwise, register and sign in. Supporting every aspect of product development, from concept design through engineering and manufacturing, NX gives you an integrated toolset that coordinates disciplines, preserves data integrity and design intent, and streamlines the entire process.
Siemens NX software is a flexible and powerful integrated solution that helps you deliver better products faster and more efficiently. Syncrofit is the industry leading production proven, CAD-integrated, commercial solution for managing the joints of complex aerospace and automotive assembly structures, helping manufacturers meet demanding timelines and cost targets effectively while improving the overall quality of the final product.
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Leu with Amir Ghazanfari and Krishna Kolan from the Department of Mechanical Aerospace Engineering, Missouri University of Science and Technology, this page tutorial highlights the enhanced design flexibility and higher productivity levels of this version over NX 9.
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