Here is the explanation. I hope everything is readable.
The following is the text on the picture on the left side:
(1) Sliders for extruder
(2) ramaining panel for mounting the extruder
(1) “feed”-area where pellets get inserted into the screw; Temp -> 25°C (no heatsource in this area)
(2)“compression”-area where the pellets get heated to glass transision temperature and get compressed to form an air-free paste, the screw’s geometry is made for this; Temp -> 60-100°C (depending on material)
(3) “extrusion area” selfexplaining; Temp -> 180-300°C (depending on material)
//The small brown connectors between the bigger blocks that determin (1) to (3) are heatbreaks just like in nearly every hotend to ensure, that the possible 300°C from the hotend do not get up to the “feed” area. The screw is obviously out of metal and therefore conducts heat very good.
So you mean that you want to turn the spool into filament ? This isn’t possible since the spool is not made out of ABS or PLA if you want those filaments. And if you want polycarbonate filament (because the spools are out of polycarbonate) then you have to shred the spools, melt the granulate and extrude filament. The machines necessary for that cost way over 2000€ if you want a good quality filament.
Beside all that you will then run into the problem of printing with Polycarbonate.
Polycarbonate has to be extruded at ~300°C or more and requires a heated bed with a temperature of 120°C. I bet not even your printer archieves those temperatures.
It is not worth it to buy those machines just to recycle some spools.
Just to let everyone know, at the Sensorica lab, we have precedent of Co-financing equipement and all the legal structure around that. For example, the MH3000 from Ord Solutions (Toronto) is a pro-level FDM machine, 30 x 30 x30cm, 5 heads can heat up to 450℃, heated bed, full metal parts and framing, etc, please check the specs: http://ordsolutions.com/our-3d-printers/mh3000/ . It costed 4200$ and we are 12 co-owners. I invested 1500$ and I’m the main operator. 20% of all revenue from commercial activity goes back to initial investors (according to equation) until printer payed + 20%. Operators make the other (up to) 80% from commercial activity and pay back 5% to use FabLab space and infrastructure. After it’s made profitable, these %s change and some ownership is passed to the FabLab Custodian to benefit the whole community and make fair use for Open Source projects (because we’re a FabLab). Many more details and tons of brainstorming for this particular case but it’s a viable way to crowd-finance expensive equipement among hubs that would benefit from them. We can do the same exercise here and together we can afford some serious shredding and extruding machines. Thaks for considering seriously
