Bevel cutting commonly refers to the cutting of a part with an edge in such a way that the edge is angled in relation to the surface of the part. It is done to allow a greater surface area on the edge for welding preparation and other final assembly methods, each with its own set of challenges.
Additionally, thermal cutting, abrasive cutting, and machining all have a completely different set of considerations when performing bevel cuts on plate, tube, wood, composites, and so on. Regardless of how simple or complex the part is the process requires experience and a thorough understanding of machine and material.
What makes the bevel so different from a traditional 90-degree cut is that at any given time at least three, and sometimes four, variables are always in play: feed rate, tilt angle, kerf offset, and sometimes arc voltage. Each must be held within tight parameters for a successful bevel cut. The process can be overwhelming for even the most advanced programmer.
- Automatic bevel nesting and clearance for maximum material utilization
- Part settings for bevels, grain constraints, and leadins/lead-outs can be saved to the part library
- Five-axis bevel and multi-torch bevel
- Support for multiple processes such as marking, pre-piercing and drilling
- View, program, and simulate parts and toolpath in 3D
- New rule manager for in-depth lead and transition control
- Transition part dges with no cornerloop
- Manually add tags to beveled edges
Watch a recorded webinar hosted by SigmaNEST Project Engineer Oliver Lim.
In 25 minutes you will learn more about SigmaNEST 3D Beveling.
- Rule Based Transitions and Leads
- Tabbing on Bevels
- Countersink Holes