Andreas stellt das FabMX-Projekt vor:
English introduction video:
The goal of Project FabMX is to design and build an affordable, open-hardware 3d printer printing system capable of producing metal objects.
FabMX is part of MakerTools.
We want to build a The process used in FabMX can be called "metal pellet fused deposition modellingFDM" system. What does that mean? The material to be used is MIM (metal injection molding) feedstock. This is a metal powder / plastic polymer mixture with a very high percentage of metal (>90%>80%) and can be bought in the form of pellets. In a conventional MIM procressprocess, these pellets will be are heated up until the plastic polymer component (a thermoplastica thermoplastic) gets soft and then gets pressed into a mold that gives the object its shape, just like with (non-metal) injection molding. With FabMX, this first step is replaced by an additive process: The MIM feedstock is fed into a pellet extruder, where the material is heated up. As in MIM, the thermoplastic softens and the material can be used for 3D printing similar to the well-known FFF/FDM printers. The resulting "green" parts still consists of a mixture of metal powder and plactic.
To get a metal object, further processing steps are needed: First the plastic has to be removed from the "green" part, this is called "debinding". There are several debinding systems, usually this is done thermally (in a debinding oven) or chemically, e.g. by putting the part in an acetone bath. First the plastic has to be removed from the "green" part, this is called "debinding". There are several debinding systems, usually this is donethermically
(in a debinding oven) or chemically, e.g. by putting the part in an acetone bath.
The result of the debinding step is a very brittle "brown" part. This now has to be sintered in a sintering oven. The temperature needed depends on the used metal, for stainless steel it is around1300°C
To turn this process into one suitable for 3d printing, the first step (injection molding) is replaced by an FDM/FFF style 3d printer, but one with a pellet extruder suited for taking MIM feedstock. The resulting 3d printed "green" parts are then debindered and sintered just like in metal injection molding.
Before Adrian Bower started his RepRap project, you couldn't buy a 3d printer for under 20.000 Euros/dollars. But his project changed everything. He designed a 3d printer that anyone could build and published all the plans under an open-source licence. Enthusiasts around the world picked up the idea, built their own machines and helped to improve the design. Soon you could buy kits by companies like Makerbot or Ultimaker, and today you can get ready-to-be-used open-hardware machines from e.g. Prusa, Lulzbot or BCN3D. From Asia you now can get 3d printer for as low as 200 dollars.
This means that the price for a 3d printer is now just 1% of what it was roughly 15 years ago.
For fablabs, makerspaces, startups and interested hobbyists this changed a lot: suddenly they got access to state-of-the-art production technology, that was only available to large firms or universities before. They now could produce their own custom parts, at a very low price. This opened up a lot of new possibilities. Just have a look at what people upload to thingiverse and ask yourself if that would have been possible without the access to a 3d printer.
But these 3d printers all have a big drawback: plastics only.
While the evolution of FFF 3d printers (and SLA/DLP resin printers) went on at an amazing speed, metal 3d printing technology is still in a "pre-RepRap stage": too expensive, only for the big players. The makers are left behind. This situation motivated us to start an open-hardware project, with which we hope to repeat (or should I say "replicate" ) the RepRap story in the domain of metal 3d printing. At least a little. I hope some of you come with us on this amazing journey!
To make this our goal happen, a couple of things need to be done:
- Designing a pellet extruder, capable of handling stainless steel MIM feedstock (and other metals)
- Finding a practical support material/system
- Finding a good binder system, which
- is easy to print with in a pellet extruder 3d printer
- can be debindered easily (at low cost; without highly hazardous substances)
- Finding/designing a sintering oven, which
- can easily be run in a fablab/makerspace environment
- is low-cost
- is capable of sintering stainless steel (which probably involves vacuum and/or forming gas atmosphere)
Ideally all components should be able to be produced in a fablab/makerspace.
And then, of course, all of this has to be documented using an open-source license.
We have a first version of our pellet extruder running:
At Formnext2022 we showed a new version of the extruder, plans will be released shortly.
This is demo part, printed with our pellet extruder using PolyMIM 316L stainless steel feedstock. The part was sintered at a sintering service.
We also have built an experimental sintering oven:
Project updates We are currently building a larger version with the same underlying design
We are also looking into using affordable, commercial sintering ovens as well.
Here is an update on experiments using a dental oven: Sintering tests using a dental oven
FabMX releases are/will be documented in this wiki. Follow For the latest updates and news follow us on twitter for news..
The FabMX team founded a spin-off company called Metexon, with the goal of providing components needed for the open hardware FabMX extruder/system, as well as professional-grade machines:
We are looking for 3d printing enthusiasts who want to support this project.
Right now we are mainly looking for people with relevant knowledge, especially in the following fields:
- Building pellet extruders
- Printing with MIM materials
- MIM binder systems (especially non-standard ones, as we need to find a low-cost debinding method that does not involve highly hazardous substances)
- Sintering ovens (especially ideas on how to get/build a suitable, low-cost one)
If you know something about there things, we would love to talk to you!
Are you are working on something similar/related? We would like to hear from you too! Co-operations are very welcome!
Are you a MIM feedstock producer? Can we have free/cheap samples?
You want to build your own pellet extruder for MIM material? We are not there yet, but get in touch! As soon we have something we would like people try to reproduce/test our designs!
Drop us an email: firstname.lastname@example.org
Follow us on twitter: https://twitter.com/ProjectFabMX
Join our discord server: https://discord.gg/SXafhRU (channel FabMX/#fabmx_de or FabMX/#fabmx_en)