Unlike basic rectangular nesting, Inventor Nesting uses a . This means it analyzes the actual geometry of your parts—including curves, holes, and irregular angles—and interlocks them to fit as many pieces as possible onto a single raw sheet. Key Applications
Choose your template (Standard templates define default measurement units like inches or millimeters). Step 3: Configure Material Providers and Packaging
Nesting is the process of optimally positioning flat part profiles on a raw sheet to minimize waste. Inventor Nesting automates this process, allowing designers and manufacturers to generate multiple sheet nests with various material and packaging options, compare efficiency across different studies, and ultimately maximize job profitability. Autodesk Inventor Nesting 2025
To get the absolute most out of Inventor Nesting 2025, implement these advanced strategies in your drafting and manufacturing workflows: Set Up Accurate Frame and Item Separation
You can send the nested layout directly to the machine's job queue, complete with pierce points, lead-ins, and common line cutting instructions. This reduces setup time by an average of 18 minutes per job, according to Autodesk's internal telemetry. Unlike basic rectangular nesting, Inventor Nesting uses a
Autodesk Inventor Nesting 2025 bridges the historical gap between design engineering and physical manufacturing. By embedding automated, high-efficiency nesting directly inside the CAD environment, it gives businesses complete control over their material workflows. For any organization processing sheet metal or flat-plate materials, this utility is essential for maximizing profitability and staying competitive.
Once a nest is finalized, users can create a 3D model of the arrangement. From there, cutting paths can be generated directly with Inventor CAM, or the layout can be exported as a standard DXF file. These DXF files can be used in AutoCAD or any other toolpath-making software to drive CNC machines. Step 3: Configure Material Providers and Packaging Nesting
That said, for design‑centric teams already deeply invested in Inventor for mechanical design and assembly management, the seamless integration of Inventor Nesting—especially the automatic update when models change—remains a compelling advantage.
A review of the official Autodesk "Readme" for Nesting 2025 and community forums reveals several ongoing issues that potential users should be aware of:
It even integrates with your ERP to flag when a “less efficient” nest saves money because it uses cheap remnant material instead of cutting into a premium new sheet.