: Choose a large, rigid tool (like a bull-nose or flat end mill) from the tool library.
Input your exact tool flute length, extension length, and complete 3D tool holder assembly parameters. Run the analysis. WorkNC will color-code the toolpath.
Unlike traditional CAM systems that require manual definition of every toolpath movement, WorkNC focuses on . It allows programmers to focus on the "what" (the finished part) while the software handles the "how" (the safe and efficient toolpath).
WorkNC is a premier automated Computer-Aided Manufacturing (CAM) system designed for surface and solid modeling in mold, die, and tooling industries. Known for its reliable toolpath generation, automatic collision detection, and high-speed machining (HSM) optimization, it dramatically reduces programming time while ensuring flawless shop-floor execution. worknc tutorial
After roughing, there is often still a significant amount of "rest material" left in corners where the large roughing tool couldn't reach.
从2025到2026版本,WorkNC在自动化、智能化方面的进化速度非常惊人。如果你已经掌握了基础操作,下面的新功能将帮你进一步提升效率。
: The software automatically updates the "rest material" as you machine, ensuring subsequent toolpaths only cut where material remains. 3. Finishing and Remachining : Choose a large, rigid tool (like a
Roughing is designed to remove large amounts of material quickly. Global Roughing
WorkNC provides a wide range of strategies to tackle any machining task efficiently and safely. Mastering these is crucial to unlocking its full potential.
Finishing requires choosing strategies based on surface inclination angles to achieve a pristine surface finish and eliminate manual polishing. Planar / Parallel Finishing WorkNC will color-code the toolpath
: Always model the physical tool holder geometry. WorkNC uses this data for dynamic proximity calculations during 5-axis or deep-cavity milling. 5. Step 4: Generating Roughing Toolpaths
Define a descriptive project name and set the storage directory on a high-speed local drive to optimize computing times.