: Instead of drawing every box from scratch, designers can use a library of thousands of parametric "standards" (like ECMA or FEFCO). A user simply inputs the length, width, and depth, and the software automatically calculates the necessary offsets based on the chosen material thickness.
This tutorial will walk you through the foundational workflow: from launching the software to creating your first parametric design and exporting it for production.
In the 3D view, select "Export Output" to create a PDF of the flat die-line.
The journey begins not with a blank white screen, but with the . Unlike generic illustration software, ArtiosCAD is database-driven. Upon launching the software to create a new design, the user is prompted to define the "Board" parameters. This is the first critical step. The user must select the material grade (e.g., corrugated E-flute or solid bleached sulfate) and input the caliper (thickness). This data is not just metadata; it dictates the behavior of the geometry later on. For instance, the software uses this thickness to calculate "knife compensation"—the slight adjustments needed to ensure folded panels meet perfectly. Once the board is selected, the user chooses a default unit (inches or millimeters) and the structural layer configuration is set. artioscad tutorial
Ensure your design orientation aligns with the paper's grain or flute direction (usually indicated by a vertical arrow in the design window).
The true power of ArtiosCAD lies in its seamless 2D-to-3D integration. This allows you to check for design flaws before prototyping.
In the data entry bar at the bottom, type your dimensions: Length = 200mm , Width = 150mm . Press . Step 2: Adding Flaps and Creases : Instead of drawing every box from scratch,
| Mistake | Consequence | Fix | |---------|-------------|-----| | Lines not meeting exactly | 3D fold fails | Use Trim / Extend | | Crease line on cut layer | Wrong tool path | Move to correct layer | | No crease allowance | Box won’t fold flat | Set board thickness in Fold Manager | | Missing flute direction | Poor stacking strength | Add text annotation | | Overlapping geometry | Cutter confusion | Overkill command (clean duplicates) |
: Go to File > Export . Choose DXF , DDES , or CF2 . These formats are universally read by laser cutters and die-making machinery.
This comprehensive ArtiosCAD tutorial will guide you through the interface, core design principles, 3D modeling features, and final production output. Table of Contents Getting Started: Interface & Layout Creating Your First Design: 2D Drafting Using the Standards Catalog Turning 2D into 3D: Design & Modeling Adding Graphics and Prototyping Exporting for Production Best Practices & Tips 1. Getting Started: Interface & Layout In the 3D view, select "Export Output" to
Whether you are a packaging design professional, a die-maker, or a student, mastering ArtiosCAD is crucial for accelerating design cycles and reducing manufacturing errors. This comprehensive tutorial covers the essentials for beginners and advanced workflows for professionals. Table of Contents Introduction to ArtiosCAD & Interface Starting a Project: Parameters and Settings Designing from Scratch: 2D Line Basics Using Standards Catalogues (The Fast Track) 3D Modeling and Prototyping Manufacturing Features: Die-Making Tools Exporting and Collaboration (AI, DXF) Best Practices & Advanced Tips 1. Introduction to ArtiosCAD & Interface
To make a paper prototype:
The most powerful feature in ArtiosCAD is the library. You should rarely draw from scratch.
