Hi pomaer! we tried the idea of using pellets in a printer instead of filament few years ago in our lab. It was a monster DIY printer intended to be the next home appliance… We quickly realized that moving a hopper and all the weight around was not an option. We also realized that pellets bring problems with air and filament is still the best way to go. It’s light and the print head can muve faster, and the printer will endure less stress from the head changing direction, and it’s consistant. Then we decided to put a hopper and an extruder in the top back side of the printer and the filament produced would be uneven and cause many problems, and that it had to be dried before we feed into the printing head. Our conclusion was that instead of trying to build a do-it-all thing that does nothing right, it’s better to do things with specific jobs as good as possible. Often times, keeping things simple and sturdy is your best option. It’s still possible to have a crusher and an extruder dirrctly integrated into a home appliance sized 3D printer. It would look something like a stove. But there are so many parameters to watch out for… Unless it’s a super reliable closed loop feedback system that monitorizes and decides for best parameter by it self, most users are not Makers and will lose patience… now for the heating of the shredder blades, I think it’s better to freeze the plastic before you mash it, it becomes more brittle and snaps easyer when it’s frosen hard. I think heating it up even a bit will just make it bendy-er
Freezing could have a quite positive effect on the crushing of parts. Did your pellet extruder contain a filter and did you use an extruderscrew or just an auger one? One of the most important features that DIY pellet extruders are missing is a real extruder screw that compresses the pellets by getting smaller (the space where the pellets are gets smaller). I thought about a design for a printer, that doesn’t move the printhead, I’ll explain that later. -Marius
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.
cheers,
AndyL
Pot8oSh3D
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.
Modular Filament Extruder by diegotrap - Thingiverse is close to cheap and good enough, all its missing is this one Filament Width Sensor - Prototype 2 by flipper - Thingiverse
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
going to build it over and after summer…
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
you can use polymers on polymer to turn things into other things
Do you have any idea on how chemistry works ? You can’t just put some polymer on another polymer and by magic you get filament with a perfect diameter. Even if you dissolve the spool or anything like that you still have to form the filament.
Please try to learn some english, i do not want to insult you, but i have an incredibly hard time reading your comments.
-Marius
Yes, fine tuning parameters is a narrow window, and it’s hard to keep exterior conditions constant… for ex: you walk by and the air you move will affect the cooling speed of freshly squirted plastic and affect the filament diameter and evenness in that area. Ever so slightly but you have to consider. I think 5% diameter variation is the best you can get, 10% is acceptable but higher than that is unacceptable for commercial distribution. In our lab we’re all about sensors (Sensorica) I understand the importance of monitorizing and automation and it’s really not complicated. For domestic use everything goes but once you get into cimmercial use you bump into regulations and you have to make sure your equipement is safe. You also bump into the responsability to provide a quality product. This is why I’m looking for a commercial grade extruder. DIY is just reinventing the wheel and it ends up costing the same in materials, special parts and time spent wondering around. There are some pretty neat machines out there, closed loop feedback (sensors), etc, respecting safety requirements and licenses, etc, help me find the best choice for our purpose… Please 
I am American I just sometimes don’t write a word down correctly. And you can I have chemists around me and you can make a polymer that can turn a polymer into another polymer. I don’t really care what you think about me and my words, but you can manufacture the spool into a polymer and then manufacture some kind of plastic and It wold really help everywhere to go green.
Kevparang, the topic is about what you do with your empty spools, please explain me how you turn a spool (which is allready a polymer, to be specific it is Polycarbonate) into any other polymer like ABS or PLA just by blending it with some other polymers.
The key discussion in this topic is how to recycle spools. Is there a method with that you produced filament or something similar just by using a spool as input material ?
I have no problem with it, if you do not want to explain your words so that I or others can understand them but i guess it would help everyone if you make clear what you want to say and how that benefits others.
-Marius
okay forget it just recycle them I dont care Marius just do what you want to do
L.O.L. you guys…
Hey all,
We are in the middle of setting up a spool recycling program here in the UK. We have already connected to a few retailers. The basic idea is, you send us your box of empty spools and we purchase them off you…
For those outside the UK, unfortunately, at this present moment we cannot pay for postage from outside the UK, however we will still credit your account with a set amount per spool.
The spools will be turned in to circular products and reused rather than sent to landfill. We to vet members wishing to join the program and there must be a set of spools with a minimum amount in the package to make it worth while. Nether the less…
Interested? Like to find out more? We are especially interested in Makerhubs and Retailers specialising in 3D Printing tech joining our program.
Contact me at info@fila-cycle.com
Thanks
Scott - CoFounder at fila-cycle.com
I sell mine on eBay.
Hi Muckychris,
If you don’t mind me asking, how much do you sell them for? Thanks!
At $2.99 they hang around for a while - slow sell.
At $1.99 they move quicker.
Have a great day.
If there were a supplier that offered $2 return off next purchase I’d happily use it.
(I have 9 machines running 24/7 and go thru a lot of filament)
Good solution would be to use them again for the reason they where created I think. This means no resources are needed. Many people forget that recycling is a process that needs resources. What would you think if you new that your spools are being recycled using electricity power produced by coals?
Return programs set up by the producers of filament would also be a good solution.
I am building my own filament extruder and keep my spools to make new ones with the 10kg pellets I have here.
of course if filament extruders would be available to anyone, then even shipping back empty spools would not be needed anymore as everybody could reuse their own empty spools!
“Return programs set up by the producers of filament would also be a good solution” - see my reply a little bit below…
Exactly! see below, I think one or two hubs in every city should take the initiative and buy/build a decent filament extruder and produce for locals. Personally, I don’t believe a DIY extruder can output a good tolerance for the commercial prospect. I mean if I’m going to provide fresh filament to local users (with spool return policy), I’m responsible for quality and safety (equipement or some components needs homologation)… There are some pretty precise Twin Screw Extruders out there (mainly in China) ready to ship for around 4K$. One thing I can DIY is a shredder to recycle failed parts and supports (on return policy) and other plastics from the recycling bin like PLA milk and juice bottles, etc. But then again, why bother reinventing the wheel when there are some pretty heavy duty shredders out there on Alibaba for example. So if you read below, Im asking local Hubs to co-fund some serious equipement if they want co-ownership and the advantages from that, being high quality filament basically for free and revenues from sales. Having local production and a spool return program and plastics recycling program would drastically reduce the price of filament for local users and 3D printing will emancipate. I want to be among the pioneers. Cheers!
Hey BDan, good thinking… get in touch with me, I am interested, maybe we can look at this idea a little more closer.
Scott
In terms of return programs and not “what you did with?”, I think it should be the way the industry should go. There are many reasons for that including the following:
- filament spools are different depending on brands (colorFabb ones are clear transparent plastic for example)
- it would be stupid to destruct an object that would need to be recreated
- it is the way all brands are going. See Nespresso for example.
This discussion is getting very interesting to me but, TBH, I’m having trouble keeping track of people’s inputs though. Perhaps the way I’m viewing the page or maybe just the format. BUT!! I think we have something here. Not p*** in anyone’s fire here. Just want to structure thoughts a bit…
1) There’s no sense recycling spools because they’re useful and it would use still more energy to do so
2) There are many different spool formats and sizes
3) If, for every geographical “set” of printers, there were a “centralised” shredding, extruding, spooling facility, we’d be able to get recycled material with many financial and environmental advantages.
4) Such a facility would be scalable, according to local print demand and number of printers.
5) Diversity of spool designs need not be a big issue as facility spool stock would probably reflect usage of the local printers to a large extent.
I’m sure I’ve missed something. Anybody got anything to add?
This is really interesting!!!
Cheers!
AndyL
Pot8oSh3D
Hey Andy, sounds about right. We have a system about to go live here in the UK, possible EU. Feel free to get in touch, info@fila-cycle.com
Interested
@luukgerrits
Scott