Have you run a material yield comparison between manual layout and Inventor Nesting 2025? The difference might surprise you.
Applying strict grain direction to every part kills yield. In the 2025 version, you can set a "Grain Tolerance" (e.g., +/- 10 degrees) to allow the solver flexibility while keeping brushed metal or wood grain visually consistent.
Finally, you export the nest. Common formats include DXF for manual nesting, or native machine code (CNC, G-code, or HPGL) for automated cutting. Autodesk Inventor Nesting 2025
Used when all necessary files are in a single assembly, with quantities driven by the assembly's Bill of Materials (BOM). Pull Workflow:
For CNC router and plasma users, the 2025 update adds a native toolpath visualization layer. Before exporting your nest, you can simulate the cut order, lead-ins, and common line cutting to verify that the nest is mathematically efficient and physically safe for your specific machine. Have you run a material yield comparison between
Once the nesting process is complete, Autodesk Inventor Nesting 2025 provides a detailed report on the results, including:
: Enhanced support for viewing detailed 3D source files during the nesting setup process. In the 2025 version, you can set a "Grain Tolerance" (e
As material costs continue to rise, the ability to squeeze one more part out of every sheet is no longer a luxury—it is a competitive necessity. And in 2025, Autodesk Inventor Nesting stands as the industry benchmark for achieving that efficiency.
A major selling point for enterprises is how integrates with the broader ecosystem.
The 2025 release focuses on usability, performance, and deeper integration with the modernized Inventor interface.
If you are new to the tool, here is how a typical session works in Inventor Nesting 2025: