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Additive & Subtractive Manufacturing By Layer for the E3D ToolChanging platform

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Overview

This code is designed to create a gcode file suitable for Additive & Subtractive Manufacturing By Layer (ASMBL).

What is ASMBL?

ASMBL is a manufacturing technique which combines FDM 3D printing with traditional milling.

The additive and subtractive tools are alternated throughout the print so that milling of otherwise impossible to reach features is now possible.

Useful Links

E3D Toolchanger Milling Tool - Thingiverse

https://e3d-online.com/blogs/news/asmbl

What does the repo do?

Historically, combining an additive and subtractive gcode file has needed to be done manually. This is an arduous process that is only realistically feasible for simple shapes.

This repo automatically merges a milling gcode file into a FDM gcode file; so that each milling segment is merged only after the part has been printed to the required height. This merging is also compatible with non-planar milling operations that occur over a range of print layers (such as as chamfers or fillets), allowing the staircase effect typically found in FDM parts to be removed from your print. .

How it can be used?

There are 2 main ways this repo can be used.

  • As a standalone program that takes 2 input files
    • An additive.gcode file from Simplify3D using the ASMBL.factory file to get the appropriate settings.
    • A subtractive .gcode file from Fusion360.
    • These files require specific setup for this program to work
  • As a Fusion 360 add-in where the ENTIRE workflow from designing the part to getting the merged gcode is in Fusion 360
    • This means no handling dirty STL files!!!

The Fusion 360 add-in is the recommended option however the slicer is new and not widely adopted yet. Therefore, support for Simplify3D is present. The 2 slicers create mostly compatible gcode files. Until further notice, support for both programs will exist.

Fusion add-in demo

For the standalone program, download the latest release for the ASMBL.exe, an example config.json, and the Simplify3D factory file.




Contents




Installation

Fusion 360 Add-in

Unzip the repo in your desired folder location or clone the repo:

git clone https://github.com/AndyEveritt/ASMBL.git
  • Open Fusion360
  • Click the add-in tool
  • Click the green plus to add an existing add-in

  • Navigate to the ASMBL repo location and select the folder

  • Select the ASMBL add-in from the list, click Run on Startup, then Run

Fusion360 Design Workspace

To make orienting the coordinate axis between modeling, additive, and subtractive workspaces; it is highly recommended to change the Default modeling orientation in Fusion360.

This can be done by:

  • Going to user preferences
  • Changing the Default modeling orientation to Z up

Setting up the code for standalone use (Simplify3D)

Download the following files from the releases page:

  • ASMBL.exe
  • config.json
  • ASMBL.factory

Ensure the config and exe are in the same folder for the program to run.

To modify the source code follow the guide here: Standalone Installation




Usage

Material Choice

A details on materials that have been tested can be found here.


Additive Setup

The additive gcode can be setup in various ways.

  • Using Fusion360 for the complete workflow (recommended)
  • Using Simplify3D (or PrusaSlicer if you want to make a profile) to generate the FFF gcode and Fusion to generate the CAM gcode.

DO NOT TURN OFF THE RAFT UNLESS YOU KNOW WHAT YOU ARE DOING...IT IS VERY EASY TO CUT INTO THE BED AND BREAK THE TOOL

If you do remove the raft, make sure the part is placed flat on the bed.

Fusion360

First you need to create an offset of your model, this will control how much cut-in you have.

  • Open you Fusion 360 file, or .step in Fusion 360.
  • Turn on Capture Design History if it is not already on.
    • This can be found in the Design workspace.

  • Make a duplicate of the model body(s).
    • Select the body from the Browser menu on the left and Ctrl+C, Ctrl+V
    • Make sure both bodies perfectly overlaid.
    • Both bodies should be outside a component if one exists. (Weird graphics happen otherwise).

  • Offset all the faces on the new body that you wish to machine.
    • Hide the original body to make selecting faces easier.
    • An offset amount of ~0.2-0.3 mm works well in my testing.
    • You do not want to offset any face you will not be able to machine, ie the base
    • For top surfacing to work properly, you need to offset a sufficient amount for the additive slicer to add an additional layer. This can normally be achieved by offsetting the same amount as your print layer height.
    • You do not want to offset more than 1 print layer in the vertical direction or the cutting order will not work.
  • Once you are done, hide the offset body and show the original body.

  • You should have 2 of each body in your part, the exactly modelled part, and the offset part.
  • Enter the Additive Tab in the Manufacturing workspace in Fusion360.
  • Create a new setup

Workspace:

Machine:

Setup:

  • Optionally rename the setup to Additive

Standalone (Simplify3D, Other Slicers)

Guide on how to create a properly configured gcode file can be generated can be found here


Subtractive Setup

Stock setup

  • Create a new Setup by clicking Setup > New Setup
  • Select From solid for the Stock mode
  • Click on the part body to select it
    • Select the offset body if created earlier
  • Under the Model option in the Setup tab, select the original part body.

The origin changes depending on if you are using Fusion360 or an external slicer for the additive gcode.

Fusion360

  • Under Work Coordinate System select:
    • Orientation: Model orientation
    • Origin: Model origin
  • The origin should now align with the previously configured FFF setup

External Slicer

  • Move the origin to the bottom middle of the part
  • Orient the Z axis to be vertically upwards

CAM setup

The CAMing proceedures for ASMBL can be configured with the following processes:

Process Usage
3D Contour Used for vertical & close to vertical side walls (including chamfers & filets).
2D Adaptive Used for top surfacing
2D Contour Used for vertical side walls of parts
Other 3D operations Can be used for non planar operations if you know what you are doing (it is easy to break stuff, be careful)

See Operation Setup for more details.

Retraction & Non-Planar Understanding Point

This is key to understanding how to CAM a model effectively. Below are guidelines but they may not work for every situation. Use this overview to understand what to look for when setting up the CAM operations.

This program separates each of the CAM operations into segments separated by motion type (cutting, lead-in, plunge, etc.).

Each of the cutting segments are then classified as either planar or non-planar.

  • Planar segments are where the cutting happens on the XY plane.
  • Non-planar segments also cut in the Z axis.

The height of each segment is determined:

  • For planar segments, it is the minimum height the cutter is active.
  • For non-planar segments, it is the maximum height the cutter is active.

Consequetive cutting segments are then grouped if they have the same height as the previous segment. Consequetive segments are also grouped if they are non planar.

For each group, any prior lead-in or plunge segments and post lead-out segments are found and added to the group start or end respectively. A CamGcodeLayer is created containing every segment between the first and last segment in the group for all motion types.

Retracts are automatically added between each CamGcodeLayer to ensure the tool does not collide with the part. Therefore, if there are multiple consequetive cutting segments at the same height (top surfacing etc.), the Fusion retracts will be used; otherwise, this program will automatically replace any retracts/transitions Fusion creates.

Always inspect the gcode with travel moves turned on after it has been generated. This program reorders a significant proportion of the gcode, and replaces Fusion360's default retracts & travel moves.

It can happen that a single missing/wrong line in the toolpath causes the tool to pass through the model, this is unlikely if sticking with planar operations but a possibility when using non-planar

Tool Config

You can import our tool config by opening the Tool Library then right clicking on either the Document, Cloud, or Local then Import Tool Library. The library to import is located in this repo in settings/ASMBL.tools

When selecting the tool you must renumber the tool to match the tool number on your printer.

A Cutting Feedrate of 500 mm/min works well.

Operation Setup

The CAM operations can be created using these buttons in the Milling Toolbar

Full setup details for operations can be found here: CAM Operation Setup

Post Processing

Fusion Add-in

  • Regenerate the additive setup
  • Regenerate the subtractive setup
    • This offsets the CAM operation Z height equal to the raft height.
  • Click on the ASMBL tab along the top navigation bar
  • Click Post Process
    • If all the toolpaths have not been previously generated or are out of date, you can tick the box to re generate all toolpaths
      • This currently has a bug if the additive toolpath isn't the last to generate where the progress bar will not complete. If this happens just close the progress bar are rerun the post process command
    • The default settings are auto filled.
      • Layer overlap is an important setting
        • An overlap > 0 will use the side of the cutter instead of the tip, this can give a better finish to walls. If there are no overhangs, recommended to use 2.
        • However this can cause issues if machining overhangs, in which case set the overlap to 0
      • Layer Dropdown can also affect finish
        • This will lower the z height of all the CAM operations by this value, it can be used to make the cutter tip locate in the middle of a layer instead of between 2 layers which can give a better finish; but if you want Z accuracy, leave it at 0.
    • Click OK
  • The output gcode will be saved in ~/ASMBL/output/
    • If the file name already exists, it will be overwritten without warning.
    • The generated file will automatically open in your default .gcode editor.
    • Always preview the gcode fully to check it for mistakes This is Beta software, there will be bugs.

Standalone

  • Generate and Simulate the full Setup to ensure in looks sensible
  • In the Manufacturing workspace, ASMBL tab; click Actions > Post Process Cam
  • Click Ok

A new temporary file is created for each unsuppressed milling setup, rename or change the folder location of any generated file you want to keep else it may be deleted/overwritten.

Fusion will try to open the generated gcode file in VSCode by default, if you don't have it installed it will prompt you to download it. This is entirely up to you.

Config

The config.json contains the parameters that control how the ASMBL parser merges the 2 input files if running the program standalone.

Update the config.json so that the following settings are correct for your project:

{
    "InputFiles": {
        "additive_gcode": "path to Simplify3D additive .gcode file",
        "subtractive_gcode": "path to Fusion360 CAM .gcode file"
    },
    "Printer": {
        "bed_centre_x": "mm from origin to bed centre in x axis (150)",
        "bed_centre_y": "mm from origin to bed centre in y axis (100)"
    },
    "PrintSettings": {
        "raft_height": "Height of the top layer of the raft (2.133)"
    },
    "CamSettings": {
        "layer_overlap": "How many layers the tip of the cutter should be lower than the layers being cut",
        "layer_dropdown": "What number of mm the tip of the cutter should be lowered by"
    },
    "OutputSettings": {
        "filename": "Name of the output file containing the merged gcode script
    }
}

Program

The program takes the following arguments:

Arg (long) Arg (short) Default Usage
--config -C config.json Path to the configuration JSON file

By default the program expects the config.json to be in the same directory as the main file.

Run Standalone

To run the program, ensure the config.json is configured correctly, then run the ASMBL.exe

The latest .exe can be found here https://github.com/AndyEveritt/ASMBL/releases

The program will output the file with a name according the the config settings in the output folder. (An output folder will be created in the same directory as the .exe if one does not exist)

Always preview the generated gcode in Simplify3D before attempting to print it

Set the coloring to Active Toolhead and enable Travel moves to ensure the part is using the correct tools at the correct times.

The subtractive processes are displayed as travel moves, scroll through the layers to check the subtractive processes have been added at the correct point in the print (defined in config.json)

Updating

Close Fusion 360 and overwrite the contents of the ASMBL repo folder with the latest version from releases (or use git pull if you previously cloned the repo).

If you want Fusion to automatically detect the update then make sure the folder names are the same, otherwise repeat this step with the new folder Fusion 360 Add-in.

Authors and Acknowledgment

Author Contribution
@AndyEveritt Code
Greg Holloway Printer

License

LGPL-3.0