Design Library: Click to open the design library. SolidCAM Application Tutorial: Basic Training - 1 SolidCAM + SolidWorks The Complete Integrated Manufacturing Solutionresources, tutorials, tips of the day and also command buttons to open or create SolidWorks documents. SolidCAM Turning provides. Nx Turning Tutorial G Code Turning Tutorial SolidCAM Module for Fast and Efficient Turning SolidCAM provides the most comprehensive turning package with powerful toolpaths and techniques for fast and efficient turning. Solid cam tutorials pdf In this tutorial. Download Tutorial PDF.SolidCAM SolidWorks The Complete.13SolidCAM Tutorial Video3 (Defining new CAM part using coordinate system and stock material. Creating a 5-Axis Tool Path. Opening the Part and Starting SolidCAM. Start free trial Whether it’s a scan or a simple form made with Microsoft Word, Excel, or any other application, Adobe Acrobat gives you a simple way to make it smarter with signature fields, calculations, and much more.1.Ease of Use - the winning combination SolidCAM 2007 R11 Turning Training Course. •Solidcam Turning Tutorial Pdf 8,1/10 9350reviews. Solidcam Professor, Microsoft Office 2007 For Seniors For Dummies Torrent, Adobe. In addition, SolidCAM allows you to automatically rough and. SolidCAM supports various types of tools, which makes it possible to effectively perform longitudinal turning, trimming, grooving, etc. SolidCAM has a wide range of functions for automating the creation of control programs for turning and turning-milling.
Solidcam Turning Tutorial Pdf In ThisUsing this book This tutorial is intended to be used in a classroom environment under the guidance of an experienced instructor. The guided exercises will teach you the necessary commands and options to complete a machining task. Course design This course is designed around a task-based approach to training. Prerequisites Students attending this course are expected to have basic knowledge of the SolidCAM software. SolidCAM 2007 R11.1 crack, 11744.About this course This tutorial illustrates the advanced concepts of 5 Axis machining, post and machine simulation settings, basic parameters used in defining the tool path, parallel strategies of 5-Axis machining, and creating machine simulation. The advantage of creating separate folders is that the post processor and machine simulation files remain intact even when the SolidCAM version is uninstalled or upgraded. For example, C:/GPP & C:/Machine_Sim. But, it is a good practice to create separate folders in the root directory for the post processor and the machine simulation. Click Tools Settings.You must pay attention to the path for machine simulation files and the location of the post processor.By default, the post processor files and the machine simulation files are located on this path: /root/Program Files/SolidCAM/Gpptool. If a CAM part already exists, then SolidCAM uses the suffixes -1, -2 to create alternate names. - The name of the part is always derived from the SolidWorks part file name. It is recommended that you select Use Model file directory check box. If the box is not checked, it stores the project in the “User” directory located in /root/ Program Files/SolidCAM/. When the Use Model file directory check box is selected, SolidCAM saves the entire project in the location of the SolidWorks part file. EnsureThat the settings are as shown in the image.The New Milling Part window displays. Although a standard Table-Table Machine would serve the purpose, it is better to machine this on a Head-Table configuration of the machine. In this example, if you closely observe the part, you will notice that we need to machine the periphery of the part and also cut some pockets. The selection of the post/machine depends on the part to be machined and the availability of the machine with the customer. SelectThe post processor/machine that will be used to machine the part. Post Processor Definition 1. Depending on which side of the part is on the + X, click Flip around Z button twice.The resultant coordinate system must look like this: 6. To get the X axis in place of the current Z axis, click the Flip Around Y button.The coordinate system must look like this: Now, the X axis is aligned to the axis of revolution of the cylinder, the Z axis is pointing to the depth, and the Y axis is denoting the tilting head. You can do this using the Modify by flip functionality available in SolidCAM. And, the Z axis must denote the depth axis.In short, we need to swap the place of Z axis with X axis and the place of Y axis with the Z axis. As our axis of rotation on the machine table is around X axis, we must align our X axis along the axis of revolution of the cylinder. The outer direction and the inner direction. Every surface has 2 directions. The face is displayed in the geometry selected area on the left side. The area to be cut and other parametersThe highlighted face. Geometry selection area 2. It never allows you to select any other positions of the coordinate system.The Technology list, click Parallel cuts.The Geometry area is subdivided into 3 groups. However, it avoids creating the tool path at the trimmed edges of the surface. Parallel cuts): Full, avoid cuts at exact edges: This option creates a tool path for the entire surface. Following three options are available for the selected strategy (i.e. The following options are available:Around ‘X’ Axis : The cuts must be normal to X Axis Around ‘Y’ Axis : The cuts must be normal to Y Axis Around ‘Z’ Axis : The cuts must be normal to Z Axis 15The Type in the Area section, allows us to set how much area of the drive surface must be machined. SelectThe Show direction for selected faces checkbox to show the direction. However, if there is a solid model, then the outer direction is automatically set. In this option we can give a margin by which the tool path will start from inside the surface edge. Full, Start and end at exact surface edges: This option creates a tool path from the exact edge (both start and end edges). The value by which the tool path starts from inside the surface edge is determined by the Maximum Step Over parameter in the Tool path Parameters tab. This can result in the tool paths having many jumps to the retract plane. The following figure explains this scenario:Selecting the second point ends the tool path at that point similar to what is explained in option 1. Making the additional margins close to 0 creates unnecessary jumps to the clearance plane because there are inaccuracies in the trimmed surface edges.Limit cuts by one or two points: This option allows us to create a tool path on the surface using the following scenarios:Selecting only the start point ends the tool path at that point and from the start edge of the surface. If you select Full, Start and end at exact surface edges, you see these options: It is always a good practice to give an allowance which is either default (0.03mm) or something close to it. The only difference is that two points are used to define the area.The Type list, click Full, avoid cuts at exact edges. This option is very similar to defining an area for machining.
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