Mastercam 2017 For Solidworks Tutorial (lathe) -

Make sure your X-coordinates go slightly past the center point (e.g., X -0.05) to ensure the part actually drops off without leaving a "stub." 6. Verify and Post Never send code to the machine without checking it first.

This is critical. You need to tell Mastercam the size of the raw bar stock. Use the "Make from 2 points" or "Cylinder" options. Don't forget to add a little extra on the face for a facing cut and enough "meat" in the back for the chuck jaws to grab! 3. The Facing Operation Always start by cleaning up the face of the part. Select Lathe Face . Mastercam 2017 for SOLIDWORKS Tutorial (Lathe)

Moving from CAD design to actual chips on the floor can be a bit intimidating, but the Mastercam integration for SOLIDWORKS makes it about as seamless as it gets. Make sure your X-coordinates go slightly past the

Once the bulk of the material is gone, use Lathe Finish . This will use a smaller tool (like a 35-degree DNMG) to follow the exact contour of your SOLIDWORKS geometry. 5. Parting Off The most nerve-wracking part of any lathe job! Select the Lathe Cutoff toolpath. Choose your parting tool width carefully. You need to tell Mastercam the size of the raw bar stock

Use a Lathe Rough toolpath. Keep your "Depth of Cut" conservative based on your material (Steel vs. Aluminum).

Use the and Verify functions. Verify gives you a 3D representation of the stock being cut—watch for any red collisions!

Mastercam 2017 for SOLIDWORKS bridges the gap between "perfect design" and "perfect part." By staying inside the SOLIDWORKS interface, if you change a dimension on your 3D model, you can simply "Regenerate" your toolpaths in Mastercam without starting from scratch.