Arc Overhangs make Supports Obsolete!

Do you want Arc Overhangs or do you think that Organic Supports and Tree Supports are the future?

I think a combination of arc overhangs and tiny tower supports would solve the warping problem for external overhangs. Just a tiny cylindrical "tower" support on one or two points to prevent the arc overhand from warping upwards by anchoring the flexible edges to the build plate.

I'm really excited to see where this goes. I'd be interested in seeing a combination of Arc Overhangs with "Tree" supports. The tree support would hopefully reduce warping, and ultimately, the combination of these two would not eliminate, but at least reduce support material usage.

This is one of those “holy crap why didn’t I think of that!” moments. One of the signs of genius level creativity on the part of the inventor.

If the overhang goes into 'nothingness' (i.e. no risk of colliding with parts) as in the example, it might just be a good idea to just print a single (or a few) oversized arcs that span past the surface of the actual ceiling that needs the 'support'.
This way, all those tiny little arcs are not required, which probably makes it print much cleaner, faster and more efficiently. Especially since most of the wobble happens when starting/ending arcs, thus minimizing the amount of arcs is key. The only drawback would be that you need to trim away excess after printing (similar to removing a brim).

If a combination of arc overhangs and conical slicing were to be made into a new piece of slicing software, I feel like that would be the future of 3D printing, right there.
Awesome work on this video!

To avoid warping you could try printing the second layer also very slowly to allow it to cool the same way the circles did. And only speed up after 2 or 3 layers in that region. It may also help doing the interior first and the exterior last so the contractions get spread over more material.

Wow
I really hope this comes to a slicer at some point. I have so many designs that would benefit from 90 degree overhang first layer like this.
Respect for the the creator of this. Keep it up!

Maybe it could also be helpful to use it as a support base. So you prevent the warping by still using supports, but not from the bottom, but only a few layers before the support is needed.

With refinement and clever application of subsequent layers I think this could change the capability of fdm in revolutionary way. Thanks for giving this concept the attention it deserves!

PLEASE keep us updated on this, this is a game changer for me as a prop maker. Sometimes i am forced to waste as much as 300g of filament in just support materials.

12 months and counting....

With carful part design, these could be awesome. Love these videos!

I think printing linear stiffeners few next layers in radial direction to arcs will significantly reduce warping.
Thank you, Stephan for showing us such cutting edge things of 3D-printing world!

This is why I love open-source and free software. Because everyone can contribute to it. You never know what one person can come up with!

I actually saw Steven's video earlier today and I hoped someone popular would bring the subject to the table. Well I never would have guessed it would have been this quick.

LOVE this concept. I think it would be tremendous to see it implemented into slicers directly!

Videos like these get me excited about 3D printing all over again. Keep up the incredible content!

As some people already presented ideas to prevent warping: maybe it's possible to print some special texture on the first arc overhang layer to reinforce them before going for a full layer that pumps a lot of heat into it (like some tinfoil that has honeycombstructure for stability). Or a combination of both, a texture on top for reinforcement and a lot of cooling. Or just add a single line all around the whole part (isn't there a windshield option in Cura that protects the print from wind? so like that, just in the silhouette of the overhang underneath it). The edge might be cleaner, it should be easy to remove and you don't waste much material.

So what ever happened to this because i don't see any slicers adding it, not even orca and that added scarf seams after about 20 minutes

I think that method could be more useful if we use that arc as small supports. Start to print that arc few layers below overhang an then print it as normal support to remove. It could drastically reduce waste of material and we should get better print quality. Anyway that's a great concept overall and something innovative for sure.

WOAH DUDE! I've been wanting something like this for ages! Imagine saving supports, or having a floating brim! This is so wild, I want to use this so badly.

Stefan I only recently started 3D printing I haven’t learned 3D cad yet but you have helped me understand printing in a fun way I also would love to thank everyone who has been supporting in this community for teaching me more about my new found hobby!❤❤❤

I am just getting back into 3D printing after years away. You're the only person who I see really pushing the limits of this hobby and constantly doing new things. I wonder how other channels stay motivated doing the same thing for 8+ years. Your channel feels like there is always something new and exciting to discover.

I think that printing infill first on the arc support layer might improve the warping behaviour.
Grid infill might "stabilize" the arc layer a bit, and the perimeter might pull less on the support layer.
My second idea would be small "arc support pillars" to keep the outsides of the arc layer from pulling. Sure you then add support again but it would me a tiny bit compared to normal supports.

you could just use a very thin support strip around the perimeter to hold the overlap steady and hold it down for the next layers

I was waiting for exactly this for months! THANKS soooo much! Just an awesome video !

This is so awesome and innovative. I love having a hobby with such an active and enthusiastic community!

I'd be interested in seeing if the arc overhangs could be used to 'hold' a more traditional support so you use less material but have a little bit of support that can be removed after printing

Awesome. IMO supports are well overdue for a new approach. This is likely just the beginning. I think the crystal grain analogy is really apt, and makes me think there might be a more efficient pattern out there besides arcs. It might also lead to better tool paths for printing aggressive overhangs, where support was maybe not needed but part quality suffered.

More interestingly - your sponsor ad is actually something I havent skipped. I wish more youtubers chose ad content like this which has high value to some!

I'm a German, but I crave english tutorials... Stefan, you are very welcome. Xoxo from BZ, Steffi

You could have a material setting that compensates for the warp by slight down travel as the arcs move away from the center. As a matter of fact. I think one might be presently surprised at how much down travel would be possible during an arc due to the support strength of the previous arcs. Maybe new geometries open up with this technique. But the algorithm to take down travel into account would be very difficult indeed and possibly even unsolvable in a slicer.

For the warping it would make sense to print a single support tower, which glues the outstanding end to the build plate. The concept in itself looks very cool!

Thanks Stefan for showing up this very interesting approach to print without overhangs

Hat off to this guy for not pattenting this thing.

Hey Stefan, I had the idea to try using the stall guard feature of tmc2209 drivers to create a sensorless accelerometer for input shaping. If I read the data sheet correctly I think there are enough data points given by the stall guard sensor but the coding is way over my head still. I made a post on the Klipper forum a few months ago asking about it but no one seemed interested.

This is great. I think the two main issues to address would be:
1. Outside perimeter being cleaner
2. The clear up-down wobble when joining the arcs

I've been doing this inadvertently for past 12 years every single time the print started shifting on the printing bed. LOL, amazing work with the software and it's good to see there is a practical use for this phenomenon

Wow! This is amazing. I'd not seen this before. Thank you for bringing it to widescale attention Stefan. I can't believe you got through this video without saying the word "fractal".
A slicer could add a little bit of support on the edges of large overhangs to help with the warpage.

I hope this gets further refined and incorporated into common slicers. Looks like a good way forward!

From just watching this vid, this looks like it would work just fine for overhangs that don't go out very far. I could imagine an implemetation where you could set something like horizontal overhangs < 5mm edge distance from previous layer in arc overhangs, and anything beyond with conventional support.
Of course, the practical distance would have to be investigated and set per machine.
With PrusaSlicer's upcoming organic supports and with conical slicing and arc overhangs on the horizon, the future of what is deemed 'printable' looks quite bright.

i love how ur channel is fully dedicated to CNC development.

This is very cool work by Steven! Thanks for sharing.

This changes EVERYTHING

This type of content is why I love this channel!

Incredible. Excited to see this in a slicer asap

What i find interesting about this is that it means we may find ourselves in a future where most 3d printed overhangs have arc patterns on the bottom, which i find such a neat example of function deciding form.
Imagine 30 years in the future someone makes an engineerguy-style video pointing out these arc patterns, explaining why this happens, and the history behind the innovation!

This is by far one of the most interesting 3d printing video I watch in a long time.

Wow that is incredible, the limits are constantly being pushed further and it's amazing to see

This is amazing! Even as a casual 3D printer, I cannot wait to see this method in common slicing software like prusa. This could save me so much time and money in supports during my printing, and reduce the headache of designing parts around the limitations of overhangs.

Neat concept, appreciate learning about it. Thank you Stefan!

Just amazing, thanks I've never heard of this type of printing.

I always love to see innovation in just about any context

This is a revolution in 3d printing. Thanks for sharing.

What a time to be alive, that huge techniques like this are coming out in real time.

You always have such fascinating videos keep up the amazing work I always look forward to seeing what you come up with next

I hope we get slicer implementation, because I can already see uses for this where the quality and that slight warping wouldn't bother me at all. Super awesome, and massive ups to the creator!

Oh wow this is the kind of ingenuity 3d printing needs. So simple but brilliant!

This is amazing -- thank for sharing, Stefan!
Sehr gut!

I appreciate your work to help insure this is in the public domain. If we are going thrive as a society we all need to work together and share knowledge.

wow! love this particular innovation. Very clever

Thanks for sharing this, Stephan! This is an incredible, very simple solution which is a huge leap of advancement. Like others have said, I think a tiny tower at a strategic geometry pattern will help a lot; very exciting.

Brilliant!
Essentially bridges (which always amaze me that they work so well) that return to the beginning support structure.
Looking forward to Bambu incorporating it.

Intriguing. I look forward to it being perfected and made consumer ready.

So many uses for this! Wow this is great

when I did a lot of 3D printing I exploited this property accidentally when I realized I could print very steep overhangs by covering the surface of the object with surface of spherical bumps. As the print-head comes into the overhang it gets there in little increments and each layer builds on the next. Its awesome to see this method doing basically a full horizontal overhang!

I love that you're using Lupus Nocte's music in the video! And wow thats really mesmerizing

I’m so excited about the new innovations in printing.

So awesome! This is one of the coolest developments in FDM GCode in recent years.

Such a genius idea, cannot wait to see it implemented into slicers.

Awesome. Always amazing how much further we can push things with software changes alone.

I am highly enthusiastic about these kinds of improvements!!!

Cool! I hope to see more things like this sometime in the future!

This is very very exciting, definitely gonna keep an eye on this concept!

Great idea. And as others get ahold of it and adapt it, I can easily see it leading to even better methods for FDM to create viable overhang without supports, or even with fewer supports. This si such a good example of creativity and engineering working hand-in-hand.

I am realy exited for the Arc Overhangs!

Yet another one of those things I've long been thinking "couldn't we just do it like this instead?" is finally being made reality/accessible by people who know how to actually get it done :)
Another recent one was printing in vase mode, but with internal support ribs, like Tom Stanton did for his RC Osprey.

Looks very promising, thank you for showcasing technology and techniques on the bleeding edge.

This is the coolest new software I've seen in 3D Printing in a long time!

The idea is just brilliant!

OH MY GOD, CURA!!! WE NEED THIS! Implement, plez, pluz, pleeez! Seriously... supports are the bane of my existence, and if we could mix this with adaptive thicknesses we could REALLY do some fancy stuff!

Nice! Would save a bunch in material for sure!!! Thanks for sharing!

This is super cool! I am very interested to see how this concept continues to develop. I agree w/ others that a combination of arc support + tactical cylinder/tree reinforcements will likely solve the warping issue completely.

Thank you for the great video, going to give the script a try.

This is great! I love anything that reduces support material.

Extremely inserting !! Hope to see this Arc algorithm in our slicers soon...

Awesome idea & thanks for the information!

That's insane !!! 3D printing is amazing.

Way cool, if we can figure out away to stop the cooling deformation that might be the ticket. Maybe only one or two supports at the far end of a large overhang well hold it square and prevent it from shrinking/warping

Glad you saw this! what a game changer to be in a slicer.. I tweeted ultimaker as soon as I saw this!

This is super tight. Even in something as hardware based like 3D printing, software like slicer improvements or the like can make such a noticeable difference

Wow, this may be a gamechanger for 3D printing!

You could fix the warping by making just a few small pillars that support the arc layer, or like a very sparse tree support even!

Excellent👍the gift that keeps on giving

Nice I'm still learning, today I've learned much.

This is so simple in concept it's shocking that no one thought of this sooner

Wow! We need this ASAP!
This could lead to MASSIVE savings! With this we could have hollow prints with flat top surfaces with no holes. We could make supports up in the air just before the spot where they are needed! Or maybe have models that don't need any support because all their overhangs are printed with arcs!

Wow man this is such a genius idea and im more than sure it will make a huge impact in the industry!

Ok, I'm sold. I want this implemented in Prusaslicer right now.