The software calculates bend deductions and material stretching for accurate flat layouts.
Add the tool to your turret configuration or select an alternative tool.
: Alternatively, use the DXF Import function to bring in existing designs from external storage.
Amada’s nesting engine is legendary. A tutorial PDF will walk you through: Amada Ap100 Software Tutorial Pdf
Use the , Circle , and Arc tools to draw the perimeter of your part.
Click for basic shapes, or manually assign tools for specialized forming (louvers, countersinks, ribs).
Once verified, save the file. The program outputs an .NC or .G file, ready to be transferred to the machine controller via DNC network or USB drive. 6. Troubleshooting Common AP100 Errors Error Message / Issue Root Cause Geometry lines do not meet perfectly at a corner. Zoom in and use the Connect or Trim tool to close the gap. "Tool Interference" Amada’s nesting engine is legendary
Use the cleanup tools to check for duplicate lines or open corners. 3. CAM Setup (Tooling) Switch to the CAM module .
Exporting the final code for the machine. Best Practices for Learning AP100
What is the of your Amada machine controller (e.g., AMNC-F, AMNC-3i)? Once verified, save the file
Configure or verify the tool turret layout or laser gas/power settings. Step 2: Part Geometry Creation (CAD)
Set the (usually equivalent to 1x to 2x the material thickness for lasers, or the width of the parting tool for punches).
Amada AP100 is an integrated CAD/CAM system designed specifically for sheet metal fabrication. Unlike generic CAD software, AP100 automatically factors in material properties, bend allowances, and tooling geometry. Key Capabilities : Creating and importing 2D geometry. CAM Tooling : Allocating punch tools and laser paths. Nesting : Optimizing sheet utilization to minimize waste. NC Code Generation : Creating G-code for Amada machines. 2. Navigating the Interface