Oui, pas besoin de les déchiqueter, faut les réutiliser. Mais il nous faut une ou deux places locales qui produisent et distribuent du filament de bonne qualité. J’ai envie de faire ça et je demande si on peut co-financer l’achat d’une machine décente. On aurait une belle entente et on partagerait les revenus. De la même façon on peut co-financer tout ce dont nous avons besoin collectivement et localement.
This is all interesting stuff. I think that there are many challenges here and it’s best to separate out the issues. Firstly, I think we need to decouple shredding from extruding.
Shredding has its advantages, which are mainly environmental, rather than financial. Realistically, I think a semi-centralised shredding function is most practical.
Extruding is financially very attractive. As Marius says, granulated plastic is cheaper than filament, except that the actual difference in cost is enormous. I heard that the World market for filament is less than 100 Tonnes. The market for granulated plastic is in the Millions of Tonnes per year so the potential difference is very high - think 1-2 Cents per kilo for granulated plastic. Now THAT concentrates the mind!
There are one or two granule-fed print heads surfacing. TBH, I think it’s only a matter of time before the technical challenges are met. Perhaps it’s been done already.
most of those machines don’t have a closed loop control of the filament… What they all lack mostly are a sensor that measures the filament width and then adjusts according to that.
and then you simply adjust the speed of the puller so the diameter matches… it will take a bit for the width to be stable, but once you reach that stage you simple cut the filament and the first bit you can cut in small bits and melt them again
You’re right, we used a drill bit for the proof of concept and we should have tried with a real screw. We thought the best way would be twin screws heated by induction to keep the temp stable. There are some neatly designed twin screws that take care of air bubbles, evenly mix in pigments and other stuff like carbon microfiber or nanotubes, etc… But then again, extruding the plastic is not enough. Pulling, stretching and cooling is a fine balance of parameters for best results with each plastic. That’s for filament usung 3D printers, I can’t wait to see your design… Cheers!
@Pot8oSh3D@BDan I thought about anot extruder design somewhat similar to the STACKER 3d printer. You can change the stacker-hotends depending on the material that you want. There would be three heat zones in the extruder which is will explain soon. Sadly I wasn’t at the PC since todays morning morning. -Marius
