Slicers and user interfaces for 3D printers: Difference between revisions

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=== combined slicer and control/user interface software ===
=== combined slicer and control/user interface software ===


* [http://www.netfabb.com/ Netfabb]
* [http://www.netfabb.com/ Netfabb]. In EduTechwiki, see:
** See [[Netfabb engine for RapMan]], [[Fabbster testing and setup]]
** [[Netfabb Studio tutorial|Netfabb Studio]]  
** [[Netfabb engine for RapMan]] (outdated)
** [[Fabbster testing and setup]], [[Netfabb engine for RepRap]], [[Netfabb engine for RepRap]]


=== CAD programs with integrated slicers ===
=== CAD programs with integrated slicers ===

Revision as of 11:36, 5 July 2012

Draft

Introduction

A so-called slicer takes a3D drawing (most often in .STL format) and translates this model into individual layers. It then generates the machine code that the printer will use for printing.

3D printers can be either controlled through a small on-board control screen or through a (USB) interface with a computer or through both.User interface software allows a user to send a machine code file from the computer to the 3D printer, change some parameters on run time, and move around axis manually etc.

Some programs, like Netfabb engine, combine the functionality of a slicer and a user interface/manual control software.

See also:

Slicer software

Current low-end 3D printers extrude plastic like ABS or PLA from filament. The filament is pulled into the extruder and heated in its nozzle (hot end) and finally deposited. The extruder (also called print-head) will move while extruding, or move (or jump) without extruding.

A slicer program allows to calibrate printer settings for various types of "areas to print", like:

  • extrusion speed (rotations / minute)
  • head speed
  • temperature
  • Fan on/off

Furthermore, the program allows to define:

  • wall thickness
  • fill patterns
  • extrusion speed, head speed and temperature per type of area
  • Etc.

Deposited filament for a layer or a section of a layer depends on extrusion speed, head movement speed, and temperature. In addition, factors like movement patterns, plastic brand, fan on/off etc. also have an influence on the design.

List of slicer and control software

Pure slicers

(not complete !)

  • Skeinforge
    • Supports various machines, e.g. RepRap machines, RapMan, Ultimaker, etc.
    • Difficult to learn since you must parametrize a lot of parameters and figure out how they interact. But once you master it, it's a very flexible and powerful tool
  • Cura
    • New kids on the block
    • While it is developed to be used with the Ultimaker 3D printer, it can be used with other RepRap based designs.
  • BFB Axon
    • Frontend for skeinforge, calibrated for BFB machines
  • Kisslicer
    • Quote: is a fast, easy-to-use, cross-platform program that takes 3D files (STL) and generates path information (G-code) for a 3D Printer. The FREE version has all the features needed for the hobbyist who uses a single-head machine. The PRO version essentially adds multi-head and multi-model printing.
    • For RepRap printers
  • Repsnapper ?

Pure control software

  • Repetier-Host
    • “Simple to use host software, which is be compatible with most firmwares around. You can add and position your STL files on the simulated printbed and slice them all together. For slicing you can use the built-in Slic3r slicer or use the well-known Skeinforge.” (at Reprap Wiki, retrieved July 2012).

combined slicer and control/user interface software

CAD programs with integrated slicers

  • ?

Links

Machine specific machine code