Extreme Vase Mode II - EXTREMEST vase mode. How thick can you go when 3D printing vase mode?

The thermacroic filament test was some of the most insightful I’ve seen in any 3d printing test

That color changing filament is amazing. When the heat can propagate down not just to the previous layer but 2 and 3 layers deep, do you think that it significantly helps with the layer adhesion?
Perhaps a collaboration with CNC kitchen to test this.

Such a great video! The heat propagating down to previous layers was an amazing demonstration.

If extruder slippage is causing the under extrusion that implies that hot end pressure is getting too high. Maybe increasing the temperature would make the filament runner and reduce the pressure on the extruder. That would have the effect of introducing even more heat into the part which might cause other problems. Good video. Thanks!

On my drive home tonight, I was hoping one of my channels would have an ASMR video with charts and some thermochromic filament being laid down in lines fatter than my shoe laces. I wasn't disappointed. Well done sir.

Sounds like a perfect case for CHT nozzles.

This video is amazing and deserves way more views. There are actually a lot of applications where printing super wide lines like that could make sense. Especially if the filament extruding heats the layer below it well enough to have good adhesion, this has lots of fun written all over it.

Great video. It's amazing how far you were able to push the limit, especially with the entry-level hot end. I recently designed a fast-printing 'vase mode' modular drawer system that works best with a 0.8mm line width. I found that printing with a 0.4mm nozzle produces much sharper detail in the corners (important for this model) than using a 0.8mm nozzle, even at the same line width. When I shared this on thingiverse, I was surprised by how many comments there were from people who didn't realise it was possible to print a line width much wider than the nozzle size.

I have to thank you for the optimal layer height part at the end. I have noticed inconsistent line width on my parts and couldn't nail it down. I used that calculation to find the proper line width and it completely fixed the problem 🙏

great stuff! I understand that people who make prosthetic limbs print the custom piece that fits the body in vase mode using big nozzles.

I’m pretty new so most of what you said I don’t get but I am at a loss for words about your expertise and how well you do explain things. Thank you for what you do.

The most important bit for reproducing this is really @16:00 here. Right in there Lost In Tech points out that a good starting point is Height = (2/5)*Width. When increasing extrusion width too much, I've always gotten "blotchy" prints like what you've shown. Thanks for burning through some plastic waste on our behalf :) I just gave up when I got those results. You pushed through!

I love these videos! Keep pushing the limits and documenting it for us.

This video is awesome! Thanks for explaining/documenting all of this.

This video was so incredibly interesting, loved it!

It's amazing the extruded filament spreads sideways so much without balling up on the nozzle.

So excited for future videos on this!

I thoroughly enjoy your method, curiosity and deadpan humor :D
thank you!

My guess is the loss comes from the over-height you get above your final line level. basically, it's like having a stack of thick baloney/ham slices, and bending them upwards. it's not that the slices become less wide, but each slice's width moves upward over the rest of the lines. It's pretty much the issue you're solving when choosing the layer height, and you're having with too little of a layer height. Such a cool little study!

Subscribed! Awesome and very interesting content! Thank you!

Excellent work!
Thank you.

Taking flow rate to a new layer. Excellent work! Thankyou

This is an amazing video. I watch several different well known UA-camrs and yes have learned quite a bit over the last year I have been in this but this video really takes the cake. Not even joking this is like the Nobel Prize Video for 3d printing. I have watched the videos, had some vague level of understanding on the topic maybe but after watching this video twice I finally feel like I actually have some level of control, a level of confidence about how to make the printer print like I want it to. Thank you!

Cheers for sharing, informative and entertaining at the same time great video .

This is an amazing video , with superb results. I will reuse it.
You say that nobody talks about flowrate, then look for the voron community and the speedboat benchy challenge, where folks print benchys (regular size) in less than 5 minutes.
They max out regular nozzles and volcano too, so they have alternatives.
They address the flowrate issues, as well as cooling issues.
Some made air jet cooling, from a compressor, others used large industrial fans with a shroud to send a blanket of compressed air on everything below the print head, effectively cooling everything fast.
Obviously you'd run in some limitations in the heat transfer capacity of the plastic with thick beads, but I bet you could see an improvement.
Also cht nozzles beats volcano at regular size. CNC kitchen tested it recently and even found a way to DIY an equivalent.
Look for :
-speedboat benchy challenge
-cht nozzles
-voron printers
-hevort printer (this guy made some of the insane cooling solutions for insane flow rates, over 50mm cube per second).
Cheers!

This is great! Keep going !

Amazing video, you helped us solve a mystery when pushing vase mode.
Thank you!

Subscribed! Always looking for the fastest way to print stuff!

I love this video! I figured this out myself a couple years ago and glad you have laid out the facts. There are two ways to reduce print time: reduce the printed volume and print that volume faster. I print fat lines slow even with a small nozzle and knock my print times way down. If you know the max useful print head speed of your printer, you can cut down print time by making thicker extrusions. The sweet spot seems to be a a layer that is 2 to 3 times as wide as it is high. I rarely print with lines below 1 mm wide anymore.

Awesome video, really helped me out.

Good to see someone discovering my own print philosophy about flow rate
I can tell you exactly where the extra width is going. If you watch it extrude, especially wider than the outer diameter of the nozzle tip, you'll notice that the plastic begins to flow upwards around the nozzle. So the same amount of plastic is going out, it's just going up as well, not to the side like you would want it to.

This is great, never seen a video that covers this.

very very good video, thanks

Very much impressed. 👌

This is brilliant 😀

After a while it's hard to grasp the scale of the prints/extrusion lines until you pick them up. Very cool!

Crazy! I never knew you could cleanly extrude anything significantly above the nozzle diameter, much less several times over. I think you could use this to greatly speed up 100% infill, printing the outer walls with the natural nozzle size but then doing infill with double or triple diameter. Cura can do infill layers thicker than wall layers, and can use a different extruder with larger nozzle for infill. So you could probably slice it like that, and then post-process the gcode to make it use a single extruder for everything. You'd also need to have relative extrusion enabled, since the commands generated for separate extruders would have different absolute positions.

My takeaway from this video is that there is still a whole lot more to learn about the dynamics of filament extrusion and a lot of opportunities for individuals to make a significant contribution with their experiments. Well done on this, I've not seen anyone else look at extreme extrusion like this - I think I recall Stephan doing a video showing extrusion at twice nozzle diameter in one video and asking if its worth getting larger nozzles but I think this was just something he noticed while looking at something else and he didn't seem to follow it up (unless I missed that video).

Fun things. As it happens I printed a ~2.3mm TPU "string" the other day from a 0.35mm nozzle using custom G-code. I needed this as a crucial repair for our caravan before a weekend trip.
I took a _lot_ of experiments, and extremely slow speeds to succeed. My plan was for a "normal" print first, but the TPU was too soft to be able to print such a slender print. But doing it in a single extrusion move, slowly, worked beatifully! Greater strength is a plus as well for a structural print like that.

14:55 That was sick!!! Reminds me of the hours-long microscope-sessions I used to do (cancer cells), hoping to observe something new... Only the patient get rewarded!

I think that thermosomething filament deserves a Short of its own ;)

interesting, layer height of 0.16 has always been recommended for 0.4 by all slicers for "quality" prints. Since your last video about vase mode i changed my widths to 0.45mm and then had to bump my print height to 0.18mm to get clean walls I wasn't sure why but i was able to drop infill to 8% from 15% without losing rigidity using my calibrated hands, so I wasn't complaining.

super cool shots...i print a lot in vase mode with my sidewinder and the 1mm nozlzle... with silk on some geometrics i had issues, looking to me like heat creep with pla plus that didn´t happen.... thats explaining it really good... the flex amount in silk curls/blobs up again when it gets heated from the above layer and kind a wrinkles...think thats was happend to my prints, i goes...especially at small vases

This is incredible

Heat propagation was very cool!

Really good video again. Those lines are thicc

Great video. 👍

I wish more stuff was rated in flow. Pretty much every filament had recommended print speeds, but even those are kind of irrelevant depending on your slicer. The thing I finally learned in Cura was to show all the speeds on the settings so I could set them the same. I was having issues where it was printing inside walls way faster than my hot end could flow. Now I just set it all the same and target common flow rates. I have an old Flashforge Creator clone with a mk10 hot end, but it's hard finding data out there for flow rates. Almost everything online for testing is based on the E3D style hot ends. With my all metal upgrade though I can reliably print PETG at 12-15 mm3/s, so I've been reasonably happy.

I realize I'm getting to view this after awhile, but blame it on the YT algo if you ask me. What sort of data are you looking for from your "test slicer"?
This ( Thermochroic filament )is fascinating to me, and one of the reasons I tried to argue ( with myself ) that in order to properly print with ABS, I need to immediately hit it with the fan to cause the latest filament printed to cool after attaching the previous layer. I have only managed to print with ABS using an ooze shield about 4mm from the model. I have tried building a box, but that doesn't work for me. I am using a Creality 10S, 300mm x 300mm x 400mm, direct drive, BLTouch, other than that pretty much stock. I have PETG, ABS, ASA, PLA, TPU, and NInjaFlex filaments.

Just throwing my two cents in, when I print in Vase mode I use a cheap chinese 0.8mm nozzle on a mostly stock prusa mini (other than a bondtech extruder upgrade). I print a 0.6mm layer height with 2.4mm extrusion width and it prints beautifully at 2.35-2.4 measured layer width. My one trick is limiting the flow rate to 12mm³/s and the speeds sort themselves out. Love your content!

Vase mode is great. Adaptive layer height can give great overhangs!

Anyone who says "you can't extrude thicker than the nozzle" has never used spray whipped cream.

Nice use of color changing filament! That looks great. I have some that I might break out for fan duct testing because that looks a lot better than a 100x100 pixel thermal camera image.
I'll see about using your script to benchmark the 1.8mm CHT. Nice work, looking forward to whats next (mr shakey?)

Try the Bondtech CHT nozzles if you want to increase flowrate dramatically.

First time watcher of your channel, and a great video. My sidewinder with a 0.6 nozzle is itching to try this.

The colour changing filament was impressive to watch.

Great science!!! ;-)

Here's an idea the thick layers seem to not be able to cool fast enough before the next layer extrudes which is why it doesn't look the best. so what if we cool down the layers with a fan?
Maybe just one that stands away from the printer or a hotend mount that uses a computer fan?

It seems that most of those color change filaments change color somewhere roughly between room temperature and life threatening fever temperature.
Would be nice to have one that changes color within a few degrees of turning solid or maybe heat deflection temperature. This would not only be really interesting, but help with tuning part cooling.

good content!

What I took from this video is, to be able to print PET not PETG well and reliably is a shorter area for the filament to be melted in, basically making every bit of the filament that goes into the melting point need to be pushed out of that area faster because PET likes to crystallize the longer it is I contact with heat hot enough to melt it. Thank you so much for giving me this thought process! Just a theory now, but it does follow the science around PET and is the reason PETG is even a thing in 3D printing.

I wonder if the line with is because of the surface tension of the plastic. When your printing wider than the the flat part of the nozzle it looks like the plastic is "springing" up and trying to reduce surface area, aka become more circular. You might be able to see this by checking if the layer heights.

I think the overextrusion you see for some prints is related as you mentioned to the fact, that the extruder is calibrated for the force of a 0.4mm nozzle. However, this just means that the extruder is bad in the first place, as it already slips at nominal speed. It slips less on low flow rates with large nozzles than calibrated for. I'd like to see if a quality extruder, e.g. Bondtech would exhibit the same effect.
For the underextrusion at higher widths I can imagine two effects. First, the extruded material might bulge upwards when it's wider than the flat part of the nozzle reducing the cross section. Second, it might already have cooled down so the extruder cannot make the extrusion much wider (trying to deform rigid material).
Also all hotends tend to underextrude a little when approaching their maximum flow rate. However with 10mm3/s on a volcano you should have some headroom.
Another remark: you can print pretty fast with Prusa Slicer if you set all speeds to your travel speed and just limit the print speed via the volumetric flow of the filament. That way you never have to worry again if you overload your printer. Changes to layer heights and line widths will change your print speed automatically to arrive at your desired flow rate.
To increase your flow rate significantly on standard hotends look into Bondtech CHT nozzles. They perform better than a volcano hotend with a non CHT nozzle.

I am running a 0.4 nozzle and compared my values H=0.3 W=0.7. It seems close to your H=2/5*W formula. Before I had bad layers, now they are quite good.

Can you share some cura profiles for the .8 mm test? I would love to try this on some of my printers

i tried messing around with this in prusaslicer but all it does is give me errors about widths too wide to be printable, or the layer height is too high, or something. Is it not actually possible to do these big chunky lines in it?

This is cool

I believe that nozzle diameter is a constraint also, because force required to squeeze a viscous fluid through an aperture at a given flow rate is inversely proportional to aperture diameter. The effect becomes noticeable as early as 0.4mm nozzles, which don't seem to achieve the same results (proportionally) as a 0.8mm nozzle. I have found that I need to use a 0.8mm nozzle to achieve the full flow rate of the hot end. There is probably a crossover point somewhere between 0.6mm to 0.8mm nozzles where the limiting factor switches from being the nozzle diameter to the melt zone characteristics.

The big CHT nozzles are the way to go.

Is there any chance you could reupload your flow test generator thing? The link appears to be broken :(

Did you calibrate the e-steps for each nozzle size or did you leave it at the setting for the 0.4mm nozzle?

Have you tried Orca Slicer? It has a flow rate calibration built in. It has different flow rates built in to one model. It has a ton of other calibrations too. If you don't like it and think I should switch, why? I just got my first 3D printer a month ago (BL P1S) and have only used Orca and Bambu slicers. I would love to know if you think there's something better out there!

I make hollow statues and looking to print a thicker layer for strength and speed of print. Would love to see any special options for something like that? Thanks again for the vid! 😀

Strength testing would be really interesting

Flow rate varies based on what plastic you're melting (PLA melts far easier than PETG, so it gets a higher flow rate). Also, temp affects it, higher temp, higher flow rate. So all printers have a range of flow rates (Prusa specifies approximate numbers, not sure about Crealities.)

Great video and excellent tests. I'm curious, what is your background? Engineering?

Hmm perhaps the use of a cooling duck that has 3 sharp point outlets(to increase pressure) ,1 for each side and 1 in the middle might cool the thicker layers more .🤔 it appears that the inside doesn't get contact with the cooling and is insulated keeping it hot for so long?

Glad to see Steve's name is sticking

With this, and high flow nozzles like the volcano, are people tuning their PID values with filament flowing through the nozzle at speed? It seems like that would make a big difference.

Enjoyable, but how did non-vase mode turn out? I print a lot of stuff with 2mm walls, and while I have used .8 and 1.0mm nozzles, swapping around is a pain. if I could make 3 passes with a .4 or 2 passes with a .4 and get a reasonable wall, I'd be a happy camper. Most of the stuff is structural and goes inside things, so the lines/edging aren't a real big deal.

im expecting this too be goooooood

You can set up your flowratetest in Prusaslicer aswell. Just make some more filament files with your Mac flowrate setting and then increase under Printer settings your number of extruders. Now you need to disable the purgetower in the Prtinsetting. You can then give each object their own filament setting with your value of the max flowrate. Now you just have to crack up the speeds to a maximum so your prints are capped by the flow rate settings and not by the speed settings. I’m sorry for my bad English please leave a comment if you want to use this Methode but don’t quite understand it. I will explain it better or make a video about it

I never liked printing in vase mode because things end up very flimsy. Now I know why. Duh! Flow is an interesting setting ni Cura. Most people thing 100% is the limit but it can go higher than 100%. That concept took a while to sink into my head.

I've always tought line width wasn't a parameter meant to produce such an output, but the feedback you give to the slicer regarding how much material is squeezed under the noozle and spreads around and sideways accordibgly to the material fluidity, the flow rate, and the layer height, so the slicer knows how much to spread appart parallel lines as a baseline on top of wich to match the actual parameters like, overlaping, for there's no other way for the slicer to know the outcome. At least I made some tests (although not so thoroughly as yours) with Simplify 3D a couple of years ago and they led to my conclussion, but never tested it in other slicers, and now I wonder how it does Cura to know the actual outcome for a given parameters set. I'm puzzled now with your video.

Yes, more please.

The web page w the tester blocks gcode maker … how would we set bed size and z offset?…

with all that thermal mass and sloooow cooling of inside because plastic is essentially insulation -- i wonder how the material properties change, is it essentially annealed from get-go? Sounds like a way to make some really strong prints ...

Hmm.. How would this equate on the newer creality spyder nozzle? It can go hotter, faster and higher flow rates. But.. Only comes with a .04 and .06 nozzle. ?hmm?

Definitely need additional cooling for such large amounts of plastic you're pushing out. One suggestion is to try ABS, it cools a lot faster, hence the reason why almost all high speed benchies are done with ABS. The other is look into how those speed boat guys are cooling their prints, a number of them have rigged up large fans at the bottom of the printer -- for a bed that moves vertically this works well as they duct the fans up to the bed -- check how Vez has his setup. Other option is berd air (one of the cooling options on the Hevort printers) -- which uses a air pump with tubing going to the nozzle area and cooling filament directly with cool air sourced from where you place the pump intake (hint that could be in the fridge if you like). This is something I want to play with on my big delta as I've already have a good berd air cooling setup worked out on my voron -- shameless plug to check videos I've shared of the voron mod.

Have you done it with theoretical estep (default) or have you calibrated it?

YES

what about using the cht nozzles ? it has a higher flowrate then the volcano from those that have tested.. which could allow you to go THICCer while staying faster

Weighing the samples in cnc kitchen style migh give you some nice data on underextrutio with increased width

It's the thermal mass the longer hot end has. It's not that it's in it longer, it's because the thermal mass is bigger and won't cool as fast as small hot end nozzles.

For plaatic is easier to go up than to push molten plastic sideways. I used 1.2 height to print 2 mm high line which was 5mm thick. It should have been 8mm wide instead. So tip of my 0.4mm nozzle was almost at the middle of line, not on top. If i had nozzle with larger flat area where hole is, than you wouldnt lose thickness. I guess... XD

A theory seen from one of the sites I was reading is about being able to achieve much Steeper overhangs with wider lines but not taller.

My mind is just blown

I am thinking of trying to print base mode boxes with diagonal stiffener ridges. So that would mean varying the line width as it prints.
An easy way for me to code this would be to maintain a constant flow rate while varying the print head motion speed. Each time the print head slows down it will make a fat spot in the wall.
I'm a Python programmer, so my thought is to post process g-code to add the variable speed.
Anyone have suggestions for preferred Python libraries to read and write g-code?

If I understood CNC Kitchens verdict properly then using a Bondtech CHT Nozzle is a viable solution to increasing your stock Hotends Melting capability to Volcano like levels. Maybe worth a consideration? You could technically even combine that concept with the Volcano adapter CNC Kitchen sells in their store allowing the use of a CHT Nozzle in a Volcano Hotend.

So refreshing to watch someone caring about details and testing. Reminds me about myself :-) Your Video should be made available in German language. The community would love it.
Would be glad to do the narrating.
My voice and speech is widely commented as being very appreciated :-)
So far I strictly film my very own ideas and still have plenty ideas to care about. Would be fun to do a translation.
I have no monetary intrests, so you would publish the German for fun on your channel. The extraordinary content is worth it to spread out.
Mike from Berlin Germany