One thing I would like to see in the organic supports is automatic cross-support between the pillars. If the pillars could "hold" eachother up in the lower sections they would be much sturdier. Also it would be nice to have a seperate support brim that would try to connect remote support pillars together with the others on the support plate. That would already cover 80% of the fail cases I'm encountering.
You can actually sort of do this in cura. The combination of a large "join distance" for supports and conical support with a negative value. For tall supports in general, I find that -5 to -10 degrees on conical supports helps a ton. If I need more, I'll use support brims and a larger join value to get mich more stable areas.
Tree Support Bridges. I never understood why a bunch of small towers were used insted of bridging them to give each of them more stability as it goes taller. it wouldn't need to be much, like every 5 mm make a double layer bridge connecting the supports at that layer height.
@@MMuraseofSandvich those truss like structures are not good for FDM. To print them you have loads of thin rods that need printed individually. If you think about what the layers are, with truss like supports, the support structure will be loads of small circles and ovals every layer, that isn’t good and will fail a lot more often than regular supports, with normal and tree supports the lines it needs to print are much longer and hence more reliable. SLA printers can use truss supports since there isn’t really any force on the print other than the lifting motor and gravity and SLA printers can print thin objects like that well since it is just curing it with UV not squeezing molten plastic out of a nozzle like FDM. The two printing methods, FDM and SLA are very different, hence the supports needed are different. Edit: on top of that voronoi or lattice prints are similar in structure to those truss supports and they are difficult to print, generally seen as torture tests.
Solid advice! I'd like to point out that if a print uses more material, but succeeds 100% of the time, it technically saves you filament compared to another print that uses less per print but succeeds only 80% of the time. PS: First time I'm hearing about "removing supports with a hammer" though 🤣
rubber/resin/rawhide mallets are wonderful for breaking off support material since they dont mar the surface its more likely to break off the support than crack it
@@dewritochanthere are direct and not-as-direct ways. Sometimes you don't find out someone is a furry until after you've gotten close to them. Don't ask *me* how I know *this*.
As a long time subscriber who watches the video because it's good, not because of the thumbnail/title, I find the clickbaity things absolutely hilarious! Neat tutorial as always, supports are such an annoyance in some way or another so it's great to have little tips like these to help.
Very informative and ive just done it to a specific print that failed on me twoce and third time with custom support that you've shown has made it a success. Thank you!
It would be a great option if slicers had a “paint on brim” option. Just like painting on support, but paint the areas where you want a brim. You could paint the whole base, or just little dots around specific areas. Would be easier than adding mouse ears manually and give you a lot more control.
@@c0mputer ah my bad, by “manually” I thought you meant designing the actual part with mouse ears baked in, didn’t realize you meant exactly what I said lol
Paint on brim has been an issue in both cura and prusaslicer for ages, definitely would be a very nice thing to have. I think cura has brim only on sharp edges now, that gets you there as well.
My X1-C arrived less then 5 hrs ago, and was about to do mess around with supports to get them close to my flashforge. Then your video popped up and i couldn't ask for a better timing lol Awesome video, keep it up!
Why do you want to get them close to your flashforge? Why not just make the supports as good as you can instead of trying to get them similar to other printers?
@@conorstewart2214 did u ever think that my flashforge has the best support I can ask for. So I'll refrize. "..mess around with the supports to be as good as they can like my flashforge printers.
OH MY GOD. The interface layers come off sooo much easier when you use rectilinear grid supports! I'm going to be doing this on all my supported prints from now on!
Interesting, these are the things I changed but had to learn myself middle of last year when I was doing a print with very little contact, massive overhangs with sharp edges. Painting on supports was a game changer for me and not wasting time with failing prints. Great tips as usual.
I wish I knew this stuff a couple weeks ago. I've been printing my first ever cosplay helmet and getting it to succeed with proper supports has been a headache and a half! Still very helpful, thanks!
heck yeah... another AMAZING setting I just found out about in Orca Slicer is "Make Overhang Printable" - it modifies the model geometry to help drastically reduce supports. Not great for all models but fantastic for some organic prints
I needed this video last month. I was printing some scanned models with this same problem of failed prints with organic supports. I will be trying this tonight.
Thanks for the tips! I've never understood how you get such clean prints where the support is. On mine whatever the support is supporting looks terrible. Stringy like I can see the string of filament the size of the nozzle and the layers aren't bonded well in the X-Y directions. For this reason I really hate support of any kind.
Amazing video - simple change and much better results. I have to test this - so far I am avoiding any support as much as possible, as it always fused so far, but with this and better layer separation...
I used organic supports on a petg print with a 90 degree overhang. It was a tool holder for the prusa mini. 5.86g of filament vs 18.20g for grid. Also saved 42 minutes of print time.
I almost always use that method - It proved perfectly reliable even in serial production without a single faillure. Printing the interface in a minimum adhesive material (object PLA, interface PETG or vice versa) finally makes the breakaways perfect
4:17 I used to do this with Simplify 3D I would do a 90Degree shift in the support every other layer and it was super strong. I did it for all the reasons you highlighted.
I'm happy the classics like rectilinear grid support still work. I remember you making the same suggestion almost 7 years ago for Simplify3D when that application was still relevant.
For the same reliability and filament use, but lower time, i reduce the support infill density (this is because the effective support infill density increases greatly with the 90 degree grid) but then increase the support extrusion width so the layers join together better for more stiffness/strength, and at small layer heights you aren't close to your extruders limits either. Some slicers support combined support layers, i do this too sometimes as its "uglier" but it doesn't matter if you're going to throw it away
You probably use more material for support rather than part but for this kind of shape you are right there might be no other way to print it. I hate supports like everyone else does. But some parts dictates the use of them
Yeah, some shapes are a real challenge. I tend to use these stronger supports to avoid potential failures and have to reprint, wasting even more time and material.
When TimeIsMaterialIsMoney you tend to pay closer attention to "what works". A big one for me was turning off M413 (power loss recovery) in the g-code as I was getting surface blobs & imperfections every time my Ender 6 would record on the SD CARD the position for M413. Minus the M413, I just have the Ender 6 connected to an APC UPS (Uninterruptable Power Supply) so if there is a power line burp or hiccup, the UPS smooths things out. Heck, there was even a mains line power outage where I had to use the UPS, attach another TAD5000 (EGO Brand) Battery Inverter Unit, which gave me just enough time, 20 minutes or so, to get my gasoline generator up and going, which I needed to anyway.
Your videos are always very interesting to watch and extremly informative. Thanks for all the time and effort you put in to make these informative videos. I wanted to let you know that one of the old videos of yours where you showed and used the G10/Garolite sheet as print bed has helped me tons. I use a Ender 3 Pro and have switched to G10 instead of the default magnetic sheet that comes as stock.after watching that video of yours and I should say, its an superb print bed option and super cheap as well. I print PLA, PETG and sometimes ABS as well and ngetting the prints off the bed has never been so easy. Its like magic... the prints just come off the G10 bed after its cooled a bit like they were just kept there. However I request you to re-visit the G10/Garolite bed but this time with the possibility of using it on the Bambu Labs X1C and the A1 Mini and share your findings. If they G10/Garolite can even be used on these printers or not and what were the challenges to use it and is it worth using the G10/Garolite on these highend printers instead of the stock beds or the coated PEI sheets.
Cool technique and great results! I've been using tree supports in Cura (I need the slicing tolerance setting that's not available in other slicers yet). The "branch diameter angle" setting helps me avoid issues with the branches falling over.
what "setting" do you use for what tree support?.. Like what angle do you use for what?... which is best for what?... I dont know if i worded that correctly? thank you
@@Vaporweasel751 I use "branch diameter angle". The exact setting is case-specific though. I just increase the value until the bottom of the branches looks like it's attached well enough.
@@Vaporweasel751 also worth noting: the channel "uncle jessy" did a video very recently on tuning settings for tree supports. His technique is different from mine, but it should also work fine.
I like to use S3D supports that are rectilinear but shift 90° after every X layers. This not only made the structure rigid but also saves me more support material and printing time. Maybe it's possible with the other slicers. I also combine or discard very thin supports.
01:00 Rotating the model 90 ° anti clockwise would save so much support material and print time… 😉 It also helps to let the print cool down (esp. w/ PETG, maybe in the fridge) before removing support. And *A BIG THANK YOU* fore re-recording and *not* having any background music while talking! 😘 This makes your videos easy to understand.
Thanks Angus this is great. I love the tips n tricks in Prusa Slicer and Bamboo Studio. Just got my X1 its amazing but did have a spaghetti failure on a thin part. Great to see ways to better use these tools.
I clicked this video for stuff about 3D printing and I was not expecting to see a really big 3D printing youtube holding a part of a fursuit head base. You just earned a sub Maker's Muse!
What I did to solve al the stability issues you mention is to add 5 to 10% infill to the Organic Supports, zero fails since then. and the interface to 60% and 2 layers of gap in my crappy extruder.
Have you tried increasing 'tree branch wall loops' (Orca/BBS)? This will increase the wall loops to all the branches making them stronger for tall prints.
I've only recently started using the paint on feature for supports in Prusa and I didn't realize about the auto fill feature lol. I've seen it but never played around with it. The supports were something I always hated in Prusa compared to Cura but overall I prefer Prusa slicer for everything else, I always found the supports in Cura easier to remove but I will be changing my settings and see how this compares and I've started to dabble in Orca slicer as I really like the multiple build plate option for larger projects but will have to see how it compares overall.
so I tried this suggestion and the supports were still just as hard to remove as they were before so I came back here to see if I had missed something and I changed the settings you specifically mentioned but the one thing that I noticed different in my slicer profile was the "Top Contact Z distance" was set to .25 (a setting I never changed that i recall but who knows lol) and yours is set to .2 (detachable) so I'm going to see if it was that...I also had to update the infill to be "Snug" instead of Grid which I had noticed and changed.
I checked the print and they were mostly easier to remove but I did have a few that were stubborn so I may have to do some further tweaking. This video though was larger print area's with supports whereas my print was smaller sections.
In general we could benefit from better support generators. For instance my printer can handle overhangs much flatter than 45 degrees but htey will be UGLY - meaning it could build an ugly support mesh that follows the model quite closely, then build a little bit of that removable light support between, and put the model on top. Bed adhesion hasn't been a problem for tall, thin things so far, so it could push this for sure.
tree supports should have canopies too, to save material but also support the print as good as possible... plus you have cute little trees with foliage at the end of each supported print 😂
You can essentially create this by tweaking the interface layer and other organic support settings. You could accomplish similar results to this video with organic supports, but it takes a lot of tuning.
I wish non planar slicing would be a thing, that mask could probably be printed basically without support then, and the layers would follow the curveature of the mask instead of just being ”flat”
You could speed up those columnar supports by modelling a hollow column that ends in a dome-like surface near where the supports are really needed. It's much faster to print some kind of circular path than a whole load of zig-zags because the amount of acceleration and decelerations requried for zig-zagging keeps the print head speed low.
Great Video. Nobody appears to talk about different support interface settings. I have tried changing these but none make any difference to how hard it is to get the supports off. Can you do a video on this if you have not already done one. And where to use different settings in different places including the default settings that need to be changed for different slicers. Thanks, keep up the good work, I watch every video you have made and really enjoyed you sulfur crested cocky puzzle videos. (I now tell tourists I serve that we call them "flying bolt cutters")
that moment when you just started printing your final attempt at a 3D printed rubik's cube that is for a final in a class and already failed once, and you're watching this video thinking: How did I not see this 12 hours ago???
Here's a klipper question for you as I'm brand new to klipper: When running a "Mandala Lace Skull" print on my recently acquired Sovol SV07 Plus, I get a message that states the following: "MCU Shutdown: Rescheduled timer in the past." I did a little digging and found that the Z motors rotational distance didn't match after I had done a little tuning and thought, "Maybe this is the issue." So, I reset them to the standard. This didn't solve the issue. Turns out that the issue is usually the result of the microstepper being asked to move too fast. A little more digging on the internet and I find that it's probably due to the requested speed of my print. So, I drop the speed down and infill percentage. But, here's the thing that gets me, I've printed at those higher speeds on test prints a few days ago and had no issues. I'm not finding a lot of information for this exact issue out there. Rather, a different issue that has to do with MCU instead. Do you think that you, or anyone else reading this, might be able to shed a little more light onto the resolution of this problem so that I, and other users, can avoid it in the future? Thanks.
Angus, thank you for this very informative video. May I ask: how do you feel about PVA disolvable material with dual extruder machines? Until now, I've only used single hotends and single materials with supporting structures (usually trees) but as my prototype parts are becoming more complex, I'm finding that single material supports aren't really cutting it and I'm giving serious thought to getting a dual hotend machine, capable of printing PVA as a disolvable support material. Have you tried this approach and do you recommend it? Cheers, Gabriel.
I'm not much of a fan of PVA supports due to the difficulty in keeping the filament dry and functional - but there are many new "support" filaments on the market that are brittle and break away easily which makes dual extrusion for support material much more viable in my opinion. Prints will take a lot longer though!
@@MakersMuse thank you! I didn’t realise PVA is such a pain to store and work with…sounds as though a dual extruder might still be a good choice, but with a different support material of course. Time / speed is lower down my list of priorities than accuracy of my prototype parts. Thank you for taking the time to reply; much appreciated!
I can't think of a real world use for this. I was playing with doing a helmet using this, but you have to use supports in other places aside from just the middle, so then you run into the warning you give at 13:30. Unless there is a way to change support styles with different areas on the print, and I dont think there is.
I liked the black cursor from my Mac days so I changed the windows one to black, but I didn’t like the default black ine in windows 10 so I just selected the colored one and changed it to black.
Thank you. I have had a hard time with this exact thing printing a Magneto helmet. I still haven't gotten a successful print, so I will try and figure out how to do this in Cura.
Use PET-G rafts for PLA prints and PLA rafts for PET-G prints !!!! Didn't test with ABS & other popular filaments but I'm quite sure some other combination will be good enough. Way easier than classic supports.
Something I never understood: why do all slicers try to detect and support overhangs BEFORE slicing instead of AFTER? Everything from layer thickness/line width and even infill can affect the interfacing between the part and support. So it's like the slicer is making supports for an "ideal mesh" that doesn't exist anymore by the time it's sliced, it should let you calculate/model supports after the model is sliced.
Great Video Angus. I'm struggling to see why everyone seems to think Orca is the best slicer at the moment. From watching youtube vids like this one, I've noticed that Pursa slicer seems to have more control and features than Orca. e.g. the amount of control in support painting and other things like the measurement tool but to name a few. Is it just me or does Orca seem to lack a lot of what Prusa has? I'm now thinking of going from Orca to Prusa.
Orca slicer is built on bambu studio, which is built on prusaslicer :) some features get carried over and others added, but not all. 😅 I just use the one I know and works for me which is currently prusaslicer
I bet you could upload a half hour video of just breaking support material away from fresh prints to relaxing music and it would get tens of thousands of views.
Bro, I am really amazed to see that the support structures can be removed that easy from the printed part. I have a doubt that can we do this in Cura Ultimaker Software or by any means print the parts with the snug support that are as detachable as the ones shown in the Video ?
For a base like that Eevee, I highly recommend using 95A TPU. You can weld the pieces together using a decent 3d printing pen and the end result is indestructible.
That Brim Gap caused a lot of headaches when I was still a noob, especially when nobody ever mentioned it. Most people just assumed that I hadn't leveled the bed yet, and ended up causing more problems along the way. Not sure why Prusa set it 0.1 gap as default.
Do you ever mess with the interface layer density or number of layers? I usually have issues with the interface layer sticking to the print requiring more effort to remove.
One thing I would like to see in the organic supports is automatic cross-support between the pillars. If the pillars could "hold" eachother up in the lower sections they would be much sturdier. Also it would be nice to have a seperate support brim that would try to connect remote support pillars together with the others on the support plate. That would already cover 80% of the fail cases I'm encountering.
I've been asking for truss-like structures since I've seen them generated for SLA prints...
You can actually sort of do this in cura. The combination of a large "join distance" for supports and conical support with a negative value.
For tall supports in general, I find that -5 to -10 degrees on conical supports helps a ton. If I need more, I'll use support brims and a larger join value to get mich more stable areas.
Or add a “root” to the structure to hold it steady on the build plate.
Tree Support Bridges. I never understood why a bunch of small towers were used insted of bridging them to give each of them more stability as it goes taller. it wouldn't need to be much, like every 5 mm make a double layer bridge connecting the supports at that layer height.
@@MMuraseofSandvich those truss like structures are not good for FDM. To print them you have loads of thin rods that need printed individually. If you think about what the layers are, with truss like supports, the support structure will be loads of small circles and ovals every layer, that isn’t good and will fail a lot more often than regular supports, with normal and tree supports the lines it needs to print are much longer and hence more reliable. SLA printers can use truss supports since there isn’t really any force on the print other than the lifting motor and gravity and SLA printers can print thin objects like that well since it is just curing it with UV not squeezing molten plastic out of a nozzle like FDM.
The two printing methods, FDM and SLA are very different, hence the supports needed are different.
Edit: on top of that voronoi or lattice prints are similar in structure to those truss supports and they are difficult to print, generally seen as torture tests.
Solid advice! I'd like to point out that if a print uses more material, but succeeds 100% of the time, it technically saves you filament compared to another print that uses less per print but succeeds only 80% of the time. PS: First time I'm hearing about "removing supports with a hammer" though 🤣
rubber/resin/rawhide mallets are wonderful for breaking off support material since they dont mar the surface its more likely to break off the support than crack it
I should get into that mindset more, it also makes sense for designs. A chunky print could fail less often.
Is that a fursuit head base? Don't ask me how I know...
>implying there's more than one way to know this
no but yeah that was my first thought too lol.
Inquiring minds would love to know
shhhhh! xD
@@dewritochan It isn't? It looks like one. If it isn't than what is it?
@@dewritochanthere are direct and not-as-direct ways. Sometimes you don't find out someone is a furry until after you've gotten close to them. Don't ask *me* how I know *this*.
As a long time subscriber who watches the video because it's good, not because of the thumbnail/title, I find the clickbaity things absolutely hilarious! Neat tutorial as always, supports are such an annoyance in some way or another so it's great to have little tips like these to help.
Very informative and ive just done it to a specific print that failed on me twoce and third time with custom support that you've shown has made it a success. Thank you!
It would be a great option if slicers had a “paint on brim” option. Just like painting on support, but paint the areas where you want a brim. You could paint the whole base, or just little dots around specific areas. Would be easier than adding mouse ears manually and give you a lot more control.
You could import a model of a thin circle into the slicer and place it wherever you need on the model's edge, no?
@@shnethog I already mentioned mouse ears.
@@c0mputer ah my bad, by “manually” I thought you meant designing the actual part with mouse ears baked in, didn’t realize you meant exactly what I said lol
Paint on brim has been an issue in both cura and prusaslicer for ages, definitely would be a very nice thing to have. I think cura has brim only on sharp edges now, that gets you there as well.
Thanks! That was very helpful
Glad it helped!
My X1-C arrived less then 5 hrs ago, and was about to do mess around with supports to get them close to my flashforge. Then your video popped up and i couldn't ask for a better timing lol
Awesome video, keep it up!
Why do you want to get them close to your flashforge? Why not just make the supports as good as you can instead of trying to get them similar to other printers?
@@conorstewart2214 did u ever think that my flashforge has the best support I can ask for. So I'll refrize. "..mess around with the supports to be as good as they can like my flashforge printers.
OH MY GOD. The interface layers come off sooo much easier when you use rectilinear grid supports! I'm going to be doing this on all my supported prints from now on!
@Paradox1A9B2w7 your printer has some detail issues then, maybe you are overextruding a bit?
Interesting, these are the things I changed but had to learn myself middle of last year when I was doing a print with very little contact, massive overhangs with sharp edges.
Painting on supports was a game changer for me and not wasting time with failing prints.
Great tips as usual.
@10:13 A BRIM! YES! Brims are the unsung heroes man.
When in doubt, gluestick and brim EVERY TIME 😍
I wish I knew this stuff a couple weeks ago. I've been printing my first ever cosplay helmet and getting it to succeed with proper supports has been a headache and a half! Still very helpful, thanks!
The most useful vidoe I've seen on 3d priting in Months. Solves exactly a problem I'm having with a helmet.
heck yeah... another AMAZING setting I just found out about in Orca Slicer is "Make Overhang Printable" - it modifies the model geometry to help drastically reduce supports. Not great for all models but fantastic for some organic prints
That also exists in cura. Sometimes it is really useful and I also use it. In both slicers the results are really good
@@santiagopostorivo I couldn’t find it in Cura. Where can I find that?
@@UncleJessy Make overhang printable inside the experimental category. Maybe it is hidden by default
@@UncleJessy You can also adjust hole area and model angle like you can do in Orca Slicer
thanks! apparently I just needed to keep scrolling 😂@@santiagopostorivo
I love how this video, beyond its excellent general applicability, also apears to be a little nod to a very specific audience. xD
Thanks!! I've struggled with supports for years!! Gonna try your settings right away!!
I needed this video last month. I was printing some scanned models with this same problem of failed prints with organic supports. I will be trying this tonight.
One of yhr most useful and concise tutorials for 3d printing supports. Thank you mate.
Thank you so much for including instruction for the Bambu slicer since that is what I use exclusively. Can't wait to give it a try!
I was hoping the interface layer gap would be covered. It feels like I have to fiddle with that value for every material I use.
Same. I’m dying to know what the interface settings are.
Damn. That's exactly what I'm searching the comments for.
Thanks for the tips! I've never understood how you get such clean prints where the support is. On mine whatever the support is supporting looks terrible. Stringy like I can see the string of filament the size of the nozzle and the layers aren't bonded well in the X-Y directions. For this reason I really hate support of any kind.
Thanks for the video Angus. In addition to being informative, it was very satisfying to watch.
Amazing video - simple change and much better results. I have to test this - so far I am avoiding any support as much as possible, as it always fused so far, but with this and better layer separation...
I needed this video a month ago.. had exactly this problem and it gave me a ton of postprocessing work.
I used organic supports on a petg print with a 90 degree overhang. It was a tool holder for the prusa mini. 5.86g of filament vs 18.20g for grid. Also saved 42 minutes of print time.
I almost always use that method - It proved perfectly reliable even in serial production without a single faillure. Printing the interface in a minimum adhesive material (object PLA, interface PETG or vice versa) finally makes the breakaways perfect
Thanks for the tutorial. Is there anyway you can tell the equivalent settings for Cura slicer?
once again a valuable tutorial with great information and explanation, Thanks Angus
4:17 I used to do this with Simplify 3D I would do a 90Degree shift in the support every other layer and it was super strong. I did it for all the reasons you highlighted.
I'm happy the classics like rectilinear grid support still work. I remember you making the same suggestion almost 7 years ago for Simplify3D when that application was still relevant.
great advice, as always. this works even on industrial FFF printers, with no cooling fans and complete chamber temp control.
boy I hope Prusa team is watching and making these improvements
For the same reliability and filament use, but lower time, i reduce the support infill density (this is because the effective support infill density increases greatly with the 90 degree grid) but then increase the support extrusion width so the layers join together better for more stiffness/strength, and at small layer heights you aren't close to your extruders limits either. Some slicers support combined support layers, i do this too sometimes as its "uglier" but it doesn't matter if you're going to throw it away
You probably use more material for support rather than part but for this kind of shape you are right there might be no other way to print it. I hate supports like everyone else does. But some parts dictates the use of them
Yeah, some shapes are a real challenge. I tend to use these stronger supports to avoid potential failures and have to reprint, wasting even more time and material.
When TimeIsMaterialIsMoney you tend to pay closer attention to "what works". A big one for me was turning off M413 (power loss recovery) in the g-code as I was getting surface blobs & imperfections every time my Ender 6 would record on the SD CARD the position for M413. Minus the M413, I just have the Ender 6 connected to an APC UPS (Uninterruptable Power Supply) so if there is a power line burp or hiccup, the UPS smooths things out. Heck, there was even a mains line power outage where I had to use the UPS, attach another TAD5000 (EGO Brand) Battery Inverter Unit, which gave me just enough time, 20 minutes or so, to get my gasoline generator up and going, which I needed to anyway.
Your videos are always very interesting to watch and extremly informative. Thanks for all the time and effort you put in to make these informative videos.
I wanted to let you know that one of the old videos of yours where you showed and used the G10/Garolite sheet as print bed has helped me tons. I use a Ender 3 Pro and have switched to G10 instead of the default magnetic sheet that comes as stock.after watching that video of yours and I should say, its an superb print bed option and super cheap as well. I print PLA, PETG and sometimes ABS as well and ngetting the prints off the bed has never been so easy. Its like magic... the prints just come off the G10 bed after its cooled a bit like they were just kept there.
However I request you to re-visit the G10/Garolite bed but this time with the possibility of using it on the Bambu Labs X1C and the A1 Mini and share your findings. If they G10/Garolite can even be used on these printers or not and what were the challenges to use it and is it worth using the G10/Garolite on these highend printers instead of the stock beds or the coated PEI sheets.
Thanks for the hot tip! I'll be checking my settings for future prints!
Cool technique and great results! I've been using tree supports in Cura (I need the slicing tolerance setting that's not available in other slicers yet). The "branch diameter angle" setting helps me avoid issues with the branches falling over.
what "setting" do you use for what tree support?.. Like what angle do you use for what?... which is best for what?... I dont know if i worded that correctly? thank you
@@Vaporweasel751 I use "branch diameter angle". The exact setting is case-specific though. I just increase the value until the bottom of the branches looks like it's attached well enough.
@@Vaporweasel751 also worth noting: the channel "uncle jessy" did a video very recently on tuning settings for tree supports. His technique is different from mine, but it should also work fine.
For tree I found giving 2 walls has helped their reliability significantly, 0.1mm gap between model as well has helped a lot too.
I like to use S3D supports that are rectilinear but shift 90° after every X layers. This not only made the structure rigid but also saves me more support material and printing time. Maybe it's possible with the other slicers. I also combine or discard very thin supports.
01:00 Rotating the model 90 ° anti clockwise would save so much support material and print time… 😉 It also helps to let the print cool down (esp. w/ PETG, maybe in the fridge) before removing support.
And *A BIG THANK YOU* fore re-recording and *not* having any background music while talking! 😘 This makes your videos easy to understand.
Rotating is not always an option, though.
This is just an example on what to do when other support fails.
@@Der_Ed Sure, not always, but for this model it's worth trying. Except if layer orientation is essential.
@@NUeB_net but the whole point of the video is to show how it's done. So no reason for him to rotate it to reduce support material
@@Der_Ed Didn't you read the 😉emoji in the first post? 🙄
@@NUeB_net i did, but this is the internet. and you never know for sure who you are talking too.
Thanks Angus this is great. I love the tips n tricks in Prusa Slicer and Bamboo Studio. Just got my X1 its amazing but did have a spaghetti failure on a thin part. Great to see ways to better use these tools.
Outstanding technique! Thanks a bunch Angus.
What do you use for your interface between the Support and the model. To make it easier to remove. I noticed you didn’t cover that in the settings.
Great one advice, can you also explain what settings are you using for middle-layer between supports and model to click-off it so easily?
always dropping wise words, angus. great job !
00:29 "...as satisfing as THIS"
liked already. I don't need anything else
I clicked this video for stuff about 3D printing and I was not expecting to see a really big 3D printing youtube holding a part of a fursuit head base. You just earned a sub Maker's Muse!
What I did to solve al the stability issues you mention is to add 5 to 10% infill to the Organic Supports, zero fails since then. and the interface to 60% and 2 layers of gap in my crappy extruder.
Omg thank you. I am new to printing and I am using a delta printer fl sun v400 for printing large pieces. This so exactly what I needed
Brilliant guide. Lots of good tips for better quality prints.
Going to give your settings a go soon and see if it helps.
Awesome Thanks for that! The Print time even went down with custom supports.
Have you tried increasing 'tree branch wall loops' (Orca/BBS)? This will increase the wall loops to all the branches making them stronger for tall prints.
That support removal scene though... Serious ASMR
I've only recently started using the paint on feature for supports in Prusa and I didn't realize about the auto fill feature lol. I've seen it but never played around with it. The supports were something I always hated in Prusa compared to Cura but overall I prefer Prusa slicer for everything else, I always found the supports in Cura easier to remove but I will be changing my settings and see how this compares and I've started to dabble in Orca slicer as I really like the multiple build plate option for larger projects but will have to see how it compares overall.
so I tried this suggestion and the supports were still just as hard to remove as they were before so I came back here to see if I had missed something and I changed the settings you specifically mentioned but the one thing that I noticed different in my slicer profile was the "Top Contact Z distance" was set to .25 (a setting I never changed that i recall but who knows lol) and yours is set to .2 (detachable) so I'm going to see if it was that...I also had to update the infill to be "Snug" instead of Grid which I had noticed and changed.
@@roll4stealth671how’d those changes affect it
@@HollowedLuna I'm not sure yet, I do have a print on the bed right now that I haven't taken off yet and I'll check it tonight.
I checked the print and they were mostly easier to remove but I did have a few that were stubborn so I may have to do some further tweaking. This video though was larger print area's with supports whereas my print was smaller sections.
Beautifully done Angus!
Very informative. I have a printer on order and have never printed before. Great video!
Good tips in this video.
The snug supports don't work for anything tall without warping.
That led me to using Organic supports mainly.
Good job Angus. You are awesome!
In general we could benefit from better support generators. For instance my printer can handle overhangs much flatter than 45 degrees but htey will be UGLY - meaning it could build an ugly support mesh that follows the model quite closely, then build a little bit of that removable light support between, and put the model on top. Bed adhesion hasn't been a problem for tall, thin things so far, so it could push this for sure.
Very interesting topic, thanks for covering this!
tree supports should have canopies too, to save material but also support the print as good as possible...
plus you have cute little trees with foliage at the end of each supported print 😂
You can essentially create this by tweaking the interface layer and other organic support settings. You could accomplish similar results to this video with organic supports, but it takes a lot of tuning.
What about the interface? With my petg prints sometimes it looks like the print drooped slightly. The underside of the print itself looks messy
I wish non planar slicing would be a thing, that mask could probably be printed basically without support then, and the layers would follow the curveature of the mask instead of just being ”flat”
You could speed up those columnar supports by modelling a hollow column that ends in a dome-like surface near where the supports are really needed. It's much faster to print some kind of circular path than a whole load of zig-zags because the amount of acceleration and decelerations requried for zig-zagging keeps the print head speed low.
Great Video.
Nobody appears to talk about different support interface settings.
I have tried changing these but none make any difference to how hard it is to get the supports off.
Can you do a video on this if you have not already done one.
And where to use different settings in different places including the default settings that need to be changed for different slicers.
Thanks, keep up the good work, I watch every video you have made and really enjoyed you sulfur crested cocky puzzle videos.
(I now tell tourists I serve that we call them "flying bolt cutters")
That support removal is so satisfying!
This is so.ething ill have to consider in future large prints. Thanks for sharing this info.
Really thorough video! Great Tips .......... You should do more clearly explained slicer videos like this in the future very helpful
that moment when you just started printing your final attempt at a 3D printed rubik's cube that is for a final in a class and already failed once, and you're watching this video thinking:
How did I not see this 12 hours ago???
A brim with a very minimal separation from the model is still effective. I hate having to cut off a bunch of brim.
I’m gonna have to try out that cupping technique, looks awesome
Here's a klipper question for you as I'm brand new to klipper:
When running a "Mandala Lace Skull" print on my recently acquired Sovol SV07 Plus, I get a message that states the following: "MCU Shutdown: Rescheduled timer in the past."
I did a little digging and found that the Z motors rotational distance didn't match after I had done a little tuning and thought, "Maybe this is the issue." So, I reset them to the standard. This didn't solve the issue.
Turns out that the issue is usually the result of the microstepper being asked to move too fast.
A little more digging on the internet and I find that it's probably due to the requested speed of my print. So, I drop the speed down and infill percentage.
But, here's the thing that gets me, I've printed at those higher speeds on test prints a few days ago and had no issues.
I'm not finding a lot of information for this exact issue out there. Rather, a different issue that has to do with MCU instead.
Do you think that you, or anyone else reading this, might be able to shed a little more light onto the resolution of this problem so that I, and other users, can avoid it in the future?
Thanks.
Is it possible to do this is ultimaker cura slicer?
Angus, thank you for this very informative video. May I ask: how do you feel about PVA disolvable material with dual extruder machines? Until now, I've only used single hotends and single materials with supporting structures (usually trees) but as my prototype parts are becoming more complex, I'm finding that single material supports aren't really cutting it and I'm giving serious thought to getting a dual hotend machine, capable of printing PVA as a disolvable support material. Have you tried this approach and do you recommend it? Cheers, Gabriel.
I'm not much of a fan of PVA supports due to the difficulty in keeping the filament dry and functional - but there are many new "support" filaments on the market that are brittle and break away easily which makes dual extrusion for support material much more viable in my opinion. Prints will take a lot longer though!
@@MakersMuse thank you! I didn’t realise PVA is such a pain to store and work with…sounds as though a dual extruder might still be a good choice, but with a different support material of course. Time / speed is lower down my list of priorities than accuracy of my prototype parts. Thank you for taking the time to reply; much appreciated!
I can't think of a real world use for this. I was playing with doing a helmet using this, but you have to use supports in other places aside from just the middle, so then you run into the warning you give at 13:30. Unless there is a way to change support styles with different areas on the print, and I dont think there is.
just did my first 48hr print and then you post this video
Could you make a tutorial using Cura?
Make a larger cursor for video recording, and make it inverted color so you always can see it.
not a bad idea, I'll investigate it!
I liked the black cursor from my Mac days so I changed the windows one to black, but I didn’t like the default black ine in windows 10 so I just selected the colored one and changed it to black.
@@d.m.rleenen6918 Posy (RUclipsr/music producer) has some quality mouse pointers.
looks like you may need to replace the extruder gear on your X1 or check the tension. There's a bit of extruder banding goin on at the end there.
worth a look, the ABS could have warped a little too but I do need to do some maintenance on the thing.
@@MakersMuse I was slacking myself which is why I even point it out lol. My P1P was having the same issues.
Thank you. I have had a hard time with this exact thing printing a Magneto helmet. I still haven't gotten a successful print, so I will try and figure out how to do this in Cura.
Sharing tricks learned by ages of experience like this is what RUclips is made for! ❤ Will definitely save me some filament one day!
Use PET-G rafts for PLA prints and PLA rafts for PET-G prints !!!! Didn't test with ABS & other popular filaments but I'm quite sure some other combination will be good enough. Way easier than classic supports.
Something I never understood: why do all slicers try to detect and support overhangs BEFORE slicing instead of AFTER? Everything from layer thickness/line width and even infill can affect the interfacing between the part and support. So it's like the slicer is making supports for an "ideal mesh" that doesn't exist anymore by the time it's sliced, it should let you calculate/model supports after the model is sliced.
Great! Like the bambu slicer info …
With a dual print head you can use PETG as a dense support layer with a PLA Part. And no gap between the support and the part... works great...
Great Video Angus.
I'm struggling to see why everyone seems to think Orca is the best slicer at the moment. From watching youtube vids like this one, I've noticed that Pursa slicer seems to have more control and features than Orca. e.g. the amount of control in support painting and other things like the measurement tool but to name a few.
Is it just me or does Orca seem to lack a lot of what Prusa has?
I'm now thinking of going from Orca to Prusa.
Orca slicer is built on bambu studio, which is built on prusaslicer :) some features get carried over and others added, but not all. 😅 I just use the one I know and works for me which is currently prusaslicer
thank you for a very useful and clear explanation, i don't own a printer yet, but have learned a lot. may we know what you are making?
Those release so clean. Awesome
That's a fursuit head! What's your sona? And how are you planning on bonding the quarter sections together?
i also would like to know this
Great video, also love the kemono base :p
I bet you could upload a half hour video of just breaking support material away from fresh prints to relaxing music and it would get tens of thousands of views.
Bro, I am really amazed to see that the support structures can be removed that easy from the printed part. I have a doubt that can we do this in Cura Ultimaker Software or by any means print the parts with the snug support that are as detachable as the ones shown in the Video ?
For a base like that Eevee, I highly recommend using 95A TPU. You can weld the pieces together using a decent 3d printing pen and the end result is indestructible.
TPU supports too?😮
11:45 Great video BUT!... Will you kindly enable DARK MODE when working with Bambu Slicer? :))
Holy that's amazing!
Super helpful information, and excellent tutorial. Thank you very much.
Learned a thing or two there, thanks Angus :)
That Brim Gap caused a lot of headaches when I was still a noob, especially when nobody ever mentioned it. Most people just assumed that I hadn't leveled the bed yet, and ended up causing more problems along the way.
Not sure why Prusa set it 0.1 gap as default.
Wonderful! Thank you for doing this.
Do you ever mess with the interface layer density or number of layers? I usually have issues with the interface layer sticking to the print requiring more effort to remove.
Same problem here, most of the times it is really hard to remove that support layer from the model. His support removal looks like magic to me.