New heated enclosure printer
-
Still happily printing away and chipping away at the minor underside blemishes but overall very happy with the overall print quality and speed.
Not leaving well enough along I tried to print the windscreen in clear PC. The print came out geometrically fine and is somewhat translucent.
I'm not sure what I was hoping for in the optical quality department, but somewhat better than I got. I wonder if some wet sanding would improve things.
The print settings were 260C printhead/110C bed/60C chamber with the layer fan starting at 0 and increasing 20% every hundred layers after layer 200. The PC is noticeably stiffer than ABS.
Thinking ahead a bit to some last tweaks, I am going to use Cura to do some g-code post processing to limit the accelerations and maximum speeds as Z increases past 250mm or so. Those parts are standing on edge and I can see some wobbling when the printhead does its rapid moves.
I may also add a couple of outer belt rollers the long spans as I can see the belt vibrating a bit when the printhead is doing short reversing infill travels at high speed. There is no audible or visible artifacts from it, but mechanically it would not be bad to eliminate.
-
OK, first big print failure. this was a sizeable part, 510x580x820mm that would have been about 5kg. I stopped at about 600z.
I paused it after about 300mm and was noticing some of the part sections swaying back and forth and tried to tape them to the more stable tree support sections, and that helped somewhat, but was not enough in the end. I need to add some more support in CAD that is attached to the part and will be cut off. It seems crucial where there are segments of the part that start on different islands on the bed then merge at some higher Z point. If there is any misalignment around the merge layers, the printhead hits one and knocks it out of place and then a cascading failure starts.
Before pausing to add the reinforcing tape I did notice the print nozzle hitting some of the part and tree support areas as it rapided over them. This makes me think that I do not have the feed amounts properly calibrated and am stacking a bit high on Z and causing the printhead to hit and knock it out of place. I can also add Z hopping but would like to get the physical characterization of the extrusion correct first instead of just adding band aids on top.
-
Round 2 was a success!
Or mostly a success. Definitely a usable part for initial track testing but the print does have some blemish areas.
I added Z hopping at 1mm so there was a ton of z motion going on but it did not affect the print time that much. The Z motor was a lot hotter. I may have to tune the retraction settings now as at some points it seemed to be depositing a tiny drop of material, z hopping to a couple mm away, and repeating for 30-50 times in a row. I am not getting any blobbing or stringing issues, so likely have some margin to reduce retractions.
The added z motion did accentuate the instability of really tall (500mm+) and slender support structures, as you could see them swaying back and forth a bit. Once the printhead was printing on them the motion was quickly damped, but it has a noticeable effect on surface print quality. I think the fast accelerations of the printer are causing problems when the center of mass of the printed plastic for an island is not over its center of support, so when I create these new CAD supports will try to either prevent that situation or try to give the added bracing some torsional stability. I found that adding 1 perimeter wall option to the support generation adds a lot of stability to the support islands, but it also greatly increases print time and support removal difficulty.
I think most browsers should play this video: https://www.instagram.com/p/CfKd1oqDCpV/
The part ran with a bunch of Cura generated supports around a bunch of 3 pass wide brace walls that were added to the CAD model in Creo. The uppermost horizontal walls were a bit wonky as a result of my added walls ending too soon and the Cura supports wobbling a bit. This wonkiness stopped when these islands were merged into the overall part perimeter, which was pretty stable due to the CAD added bracing.
So these parts are all good enough for initial assembly, dyno and track testing, but there will definitely be a round 2 once that all happens. When I do this part again (and actually for some other parts too), the supports will be revised to something like this:
Basically, after orienting the part I will take the edges that are above the build plate, drape them down to intersect the build plate, then thicken them to 3 print passes. This will eliminate any isolated islands on the print bed and it will also convert the part from long, spindly and unstable fingers and supports to a stable closed profile with few supports. The rest of the fairing is about 5mm thick, and done with 2 walls and 10% gyroid infill. The result is that the added walls are 'solid' where they merge into the part so can be trimmed off without breaking through to the infill. The added part volume seems to be a decent amount less than the support structure it is replacing, and because they are usually long smooth print moves can be done at a consistent realized 150mm/sec, so also print decently faster than constantly reversing support movement.
I found that cutting these style ribs off was pretty easy with an oscillating handheld cutters (dremel mm35). No melting and with the right blade shape (standard one included in package) it was easy to get near flush cuts. No nicked fingers, either!
This last print was 52hrs. The printer has been going almost continually since 5/16 with no more than a few hours between prints. I've gone through about 28kg of filament so far. The only failure was the filament stepper fan, which burned out. Turns out it was a 12V fan running at 24V. I may add some shielding between the chamber heater elements and the build plate, as on the previous failed print it did seem that the heater on one side caused some of the single wall tree supports that were directly opposite it to sag. Other than that, the printer has been mechanically sound, which is great.
-
Hey nice job on your build and cool parts made from it
do you plan on trying any HT Resins/filaments? IC you tried PC whos PC was it or at what temp did you print it 280C-310C? Real PC like LEXAN PC is owned by Sabic innovations invented by GE in the 70's and most others are a PC blend usually below 270C and is not like Virgin PC HF1110 or even comparable in my opinion but am curious what that PC was...
-
@rexx Thanks! The material for the PC part was ordered from pushplastic.com and is listed as 'polycarbonate' . I don't know the material details, but it felt a lot stiffer than the ABS filament. It printed at 260C, but my temp settings seem to be a bit lower than most other printers. With the thorough printhead insulation and copper print nozzle I likely get a higher heat transfer rate so need a lower temp to get the same energy to the filament.
I don't see trying any higher temp materials unless forced to by melting ABS parts. The end goal is motorcycles, and it is easy to get lost in printing experiments.
-
@coseng you may want to use ASA at least your uv stability will stand the test of time alot of ABS will fade split sag from the UV rays you have a much better chance long term UV exposure with ASA they run very close to the same with the avg density of around 1.07 and abs 1.05-1.12 SG and is the same price
-
ASA is better than ABS in every way, except cost.
-
For production motorcycles these parts are injection molded in ABS, so figure matching that is the path of least resistance.
-
@phaedrux from a resin stand point Sabic vs sabic ASA is $2.28/KG cdn 1600 lbs gayloads min loads ABS MG 94 is 2.12/KG or 96cent/lbs so a delta of like .05$ a lbs from asa to abs is not really diffrent your talking the brand influances asa can be had as cheap as abs and vise versa but makers like to inflate the underdogs due to tru put like 3dxtech asa is way overpriced at 60$/roll vs others at 25$/roll my point is asa or abs is not a real diffrence in price but the end seller or brand maybe apples to apples they are only 0.05$/Lbs away from each other at a resin stand point the rest is nike shoes! its sabics resin not 3dxtech or VM but SABIC they set the pricing the rest is inflated less L and O labor and overhead!
but both are very similar in cost -
@coseng
it would be the path of least resistance yes would you build one specific or source the run out? -
@rexx said in New heated enclosure printer:
it would be the path of least resistance yes would you build one specific or source the run out?
Not sure what you mean.
Truckload pricing in pellet form is not really relevant to a small quantity user like myself. ABS filament seems more generally available than ASA. Pushplastic.com has 10kg spools in many colors in stock. The 10kg spool size really helps with these big parts.
If I have temp issues with parts near the exhaust melting, I can give the ASA a try. Otherwise if it ain't broke, I don't have time to fix it!
-
@coseng i was just saying to the comment before asa vs abs cost $$ is not relavent good abs and good asa is priced very similar and it is what it is. as for the 10 kg spools if you want to run will be hard to beat normally the larger rolls are only found 4-5 lbs or 2-2.2KG
-
Win a few, lose a few.
I tried running a thinnish part standing up with minimal slicer supports but thought decent CAD bracing and got an area with a failure similar to the initial thin part print failures where the end got all wiggly.
I also had an issue with the one of the chamber heaters blowing on the part and causing some sagging and warping. I tried to heat and bend it back, but it was not working good enough to make it a usable part, so back to the printer.
I had run this part previously laying down and got a bunch of bad finish areas on the inside under the support structure, but the other areas ran fine. With this print I made a CAD error on the wall thickness so some of the part has one pass for each wall and a small hollow space in between. The result is quite flimsy, otherwise I would have used it. I could imagine 130mph wind blowing a hole through it.
For the next print I will go back to the laydown orientation and tweak the support roof settings a little.
-
Happy 4th of July everybody.
Those laydown prints of the front upper sides worked well. Here's a pic of the nearly finished product. All the red, white, and blue body panels were printed out. And the black seat 'pads'.
I'm going to keep refining the slicer settings and printing more parts as I make updates to the design, but for now can consider this a completely successful printer build project.
Thanks to the forum for all the suggestions and to the Duet3D crew for such an excellent product line.
-
In the search for a little more print speed (I'm a racer for a reason.....) I did a little beta testing for the people making the print nozzle with a PCD insert tip, ChampionX.
https://www.championx.com/products-and-solutions/drilling-technologies/diamondback-nozzles/
It is not a coating, but a little chunk of industrial PCD that is inserted in the tip. It is hard as a natural diamond, but black. It also has a very high thermal conductivity, so will keep the filament as hot as possible right up to the nozzle exit. That is secondary though, as diamond's low friction properties for me are the main point of interest to reduce the effort needed to push melted filament out of the orifice. Less friction leaves more stepper torque available to put to use pushing filament out, which results in higher print speeds.
The company advertises the nozzle as resistant to abrasion with CF or glass filled or otherwise abrasive filaments. I did not test any of that, but considering it is diamond, would think it would last for a printer's life. They also mirror polish the flat tip so that the tops of prints come out really smooth. The visible parts of my prints are mostly the sides of the extrusion, so also did not test this aspect.
They have products for a bunch of nozzles and are coming out with a Volcano version, but not yet for a Supervolcano, so a bit of lathe work was needed to do a retrofit.
The brass nozzle on the right was used to verify the modifications before doing it to the more expensive copper nozzle on the left.
I tested at 240C printhead temp, which is my current ABS print temp. I lowered the bed to the bottom of travel and just ran the extruder using a G1 E200 FXXXX command.
Using the existing E3D copper/nickel plate supervolcano 0.8mm nozzle I normally run prints with a max extruder speed of 1200mm/min (150mm/sec print speed) which gives very consistent results with no filament dust on the hobbed drive wheel after 12hr prints. At 1500mm/min I start to get sporadic filament slippage but it still extrudes successfully. At 1800mm/min it will not start to extrude and just slips at the hobbed drive wheel.
With the Diamondback 0.8mm tip inserted in a copper nozzle I was able to get consistent extrusion with no filament grinding up to 1800mm/min. At 2000mm/min it would not start to extrude at all and sometimes got stepper stuttering, but at that speed it may also be bumping up against the stepper’s speed limits.
So the quick takeaway is that there is definitely a significant reduction in the force needed to extrude. Combined with essentially no wear, I think it is a no-brainer upgrade. I have no financial interest in this product.
I’ll keep the nozzle in there for the next series of prints and see if I can bump the print speed from 150mm/sec to 180-200mm/sec. Possibly faster for the support printing, as a little loss in quality there is a non-issue. Even a 10% or so speed increase would be great, and considering that the printer is essentially a 6000W heater, the PCD nozzle is also an energy/cost saver.
-
-
-
Just starting another round of prints and was having some serious first layer adhestion problems that was traced back to the 8mm thick aluminum build plate developing a slight droop to it. The center of the bed is X0Y0 and X0 is still level from Y- to Y+, but both the entire Xmax and Xmin edges are drooping by about 0.25mm so the edges are low and the middle is high. I guess all the heat cycles have induced this dimensional change. Just after installation I had manually scanned it with a dial indicator and it was flat to a TIR of about .08mm with no obvious directionality to it.
I'm also having some issues with my BLTouch not being repeatable, so I manually created a 5x3 bed mesh compensation file and not it seems to work as it was. When I try to scan with the BL touch I get over well 1mm of variance, which is not backed up by a mechanical scan. Also, sometimes the BLtouch won't initialize properly. I have a 75mm extension on the probe, so the solenoid has a little extra mass to move, so instead of really debugging it I manually set Z using a G28 and not turn the printer off much.
-
@phaedrux Here it is! New restock on dhm-online.com
Come and find your duet 3 new products: duet 3 6xd and more https://www.dhm-online.com/brand/14-duet3d -
Heaven to hell!
After the first round of printing I left the printer off for a couple of months, and now have some revisions to print.
Not sure what happened, but quality has taken a nosedive from previous results. Suspecting the PCD nozzle was an issue, I swapped back to the all copper but the results were the same. The blue parts were from an old spool. After a couple of bad ones, I baked it for a few hours at 65C but that did not improve things. I then tried a new spool of white and got a little better but still far from acceptable parts. I was using the same settings and for the blue parts tried importing the settings from the .gcode file of a previously successfully printed part. I even reran an old file with the same substandard results.
Any ideas on what could be going on? All the mechanicals seem to be tight. At the end of the 22hr white print (or any other print) there was no filament dust or shards at the pinch roller.
A single layer flat part prints fine.
I'm at a loss and tired of wasting filament.
-
Seems like pretty bad under extrusion.
-
@phaedrux Ugh. I wonder why. Well, have to leave it as-is until next week and have some time to debug it.