Define the actual dimensions of the raw sheets or rolls you buy from suppliers. You can input sheet length, width, cost, and grain direction constraints. Step 4: Define Nesting Properties
Nesting irregularly shaped letters, logos, and plastic parts to ensure maximum yield from each sheet.
Inventor 2025 features refined workflows for multi-body sheet metal parts. If you design complex enclosures as a single multi-body part file, the nesting utility seamlessly extracts individual flat patterns without requiring you to manually save each body as a separate component. 3. Streamlined Fusion 360 and CAM Ecosystem Bridges
: Users create a "Nesting Study" where they specify job quantities, allowable part orientations (to maintain grain direction), and spacing. : The utility generates an efficiency rating Autodesk Inventor Nesting 2025
Maximizing Material Efficiency: A Guide to Autodesk Inventor Nesting 2025
Don't throw away large off-cuts. Inventor Nesting allows you to define custom packaging sizes. If a job leaves a 4x4-foot chunk on an 8x4-foot sheet, measure it, log it as a custom package size in your library, and use it as the primary sheet for your next small project. Group by Project Multiples
Laying out carbon fiber or fabric plies on raw rolls. What’s New in Inventor Nesting 2025? Define the actual dimensions of the raw sheets
Creating an optimized material layout involves a straightforward process inside the software. Step 1: Source the Geometry
Maintain a master Nesting Template ( .inest ) pre-loaded with your standard shop material thicknesses, packaging sizes, and machine kerf clearances to eliminate repetitive setup time.
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While a powerful tool for integrated CAD/CAM workflows, it is important to be aware of its limitations. The Autodesk Community forums provide honest feedback from real-world users.
Allow slight angular adjustments for tighter fits. Step 4: Run the Nesting Study