I have done anealing of PLA, I tried a 3D benchy. The layers fused so well, there were no layer lines to the naked eye. The Benchy was now a perfect PLA puddle.
@CNCKitchen
4 жыл бұрын
Congratulations 😉
@antoniocialfi77
4 жыл бұрын
You had us in the first half, not gonna lie
@mururoa7024
4 жыл бұрын
You just melted the surface. Cut it open and you'll see the layers are still there. There's no way FDM can compete with injection molding unless you're ready to shed $800K for an industrial printer from say Siemens or HP.
@xyzconceptsYT
4 жыл бұрын
@@mururoa7024 The PLA puddle means annealing went horribly wrong. I made no claim or comparing that it was like "injection moulding" at all.
@mb2k100
4 жыл бұрын
@@mururoa7024 R/woooosh
@feliperodrigues2487
2 жыл бұрын
Hi Sthephan! I was able to get a +300% increase in impact resistance while annealing natural PLA. I tested according to ASTM D4508, for which the sample is smaller. As printed, it broke easily, but after 20min at 95°C they did not even break, using the same pendulum. I will be publishing the results next year at the Brazilian Congress of Manufacturing Engineering (COBEF2023).
@CuttinInIdaho
Жыл бұрын
are the results available?
@SpunkyGo0se
Жыл бұрын
link the results plz
@AutoRevLife
9 ай бұрын
Was there any warping?
@waynefilkins8394
5 ай бұрын
have you tried petg?
@DimaSizo
6 күн бұрын
So where
@HitsandHeadlines
4 жыл бұрын
Stephan, you are a godsend for the 3d printing community. Thank you for your service
@CNCKitchen
4 жыл бұрын
At your service 😉
@capmilk
4 жыл бұрын
Don't listen to Skynet! They will be printing Terminators soon!
@HitsandHeadlines
4 жыл бұрын
@@capmilk 😈😈😈
@subtilo3322
3 жыл бұрын
Couldn't agree more. Greetings from Belgium.
@MisterMakerNL
4 жыл бұрын
I finally get your you-tube channel name.
@court2379
4 жыл бұрын
But what does his wife say about hijacking the oven?
@jaynayk1176
4 жыл бұрын
Court when the print is thin it might I don’t know work with the heatet bet
@AnsAnsAns
2 жыл бұрын
I don't
@moleyfromsmokelawn6902
Жыл бұрын
@@AnsAnsAns cnc KITCHEN. he uses a kitchen appliance in the video 🤙🏻
@iandawkins2182
4 жыл бұрын
I love what you are doing, taking 3D printer to the next level and breaking new ground and dispelling urban myths on 3D printed parts. Thanks and respect.
@CNCKitchen
4 жыл бұрын
You're welcome!
@gianfrancolozupone3271
4 жыл бұрын
I have tried boiling some PLA+ parts (kind of ring shaped) and letting them cool down to 40c in the water. They were thin walled parts, 2mm thick, so 10 minutes boiling was more than enough to change the temperature resistance. As a result the part was still hard at 80c while normal PLA gets rubbery at 50/55. But the same results with deformation and warping. Uneven depending on the axis. I will keep trying with other shapes and failed prints just for fun. I still think that this can be useful in parts that can be printed, annealed and then post proccesed to get the desired dimensions (sanding, drilling, etc. ). Great channel!! I really apreciate your work. Congrats!!
@ZILLION4EVER
4 жыл бұрын
reacting to your question on 2:20: yes, used volcano pla (formfutura, crimps minimal, reasonnably cheap as I live in Belgium, for usa the shipping must be crazy) like you used on that coffee maker like a year ago (?) printed clotheshangers from that and they are holding up after one year of serious (ab)use : one time I noticed visitors put like 3 wet winter jackets (heavy!) on one hook and it didn't fail. Used your 'making parts stronger info' vid and did print them with 5 perimeters instead of high infill. clearly worked, thanx for all the research Stephan!!
@jonathanramirez4183
4 жыл бұрын
I just tried annealing Proto-pasta PLA in sand and had great results. I put the parts in a glass baking dish, covered in 70 mesh high purity silica sand and left a probe in the center of the sand/glass plate setup. I used a convection oven. It took about an hour to reach 100C in the middle; I held it for 10 and then turned the oven off and left everything in there to cool. I was pleased with dimensional stability of my parts.
@jonwebb9261
4 жыл бұрын
As always, this video was incredibly informative and all the testing was very detailed. You really are an asset to the 3D printing community and I've seen no other channel go into detail in the way you do. Great job man
4 жыл бұрын
I'd like to see you test the hook that completely melted and see how it fails compared to the normal vertical hook. Great video always enjoy them thanks.
@gannacss78
4 жыл бұрын
Hi! I looked a bit into that subject previously to improve my quadcopter strength. I found that if I disabled cooling and tweeked a bit the temperatures the parts were almost not deformed after the heat treatment. Of course, disabling cooling and the temperatures affect the look and it is not suitable for all parts but if you are only looking for strength it is good and you do not need to compensate for any deformation. Thanks for the work you do. It is quite interesting and helping. :-)
@andylindsaytunes
4 жыл бұрын
You should have called this episode "Make 'em, Bake 'em, and Break 'em."
@CyanOgilvie
4 жыл бұрын
I've annealed PLA (plain and modified) by dunking the prints into boiling water for 5 minutes, then quenching with cold water (not my original idea, saw it in a youtube vid somewhere). I mainly do it for the improved temperature resistance, but that is almost always with functional, mechanical parts that need to fit with other parts, so warping is not acceptable. I've found the boiling water method produces almost no warping at all, other than the predictable shrinkage in x and y, and growth in z. The shrinkage is predictable enough to compensate for in the slicer. I've printed a fan duct that works fine on the MK2S, a few mm from the heaterblock, printing high temperature materials, so the heat resistance is good with this approach. It's also way quicker and easier than annealing in an oven. My process is to put the part into a mug or similar and pour boiling water over it, tumble the part to get rid of trapped air bubbles, then pour in cold water after 5 minutes. Once the part dries it's ready to use.
@anyuferrari
4 жыл бұрын
Thank you very much for this information! I was looking everywhere for a plastic that can stand both about 100ºC and some steam pressure. I´ll try now with PLA, PET and HIPS and annealing them. You helped me a lot!
@theheadone
4 жыл бұрын
I love your videos! you are truly an asset to the 3D-printing community :) I look forward to all of your future videos!
@theKashConnoisseur
4 жыл бұрын
Nylon will appear to be quite stiff and strong fresh from the oven. But take care, as the print adsorbs moisture from the air, the mechanical properties of the nylon change and it becomes more flexible and less stiff. Some people take the initial stiffness to indicate that Nylon can be stiffened from heat treatment, but they fail to acknowledge the temporary nature of it. Annealing Polymaker's PC-Max blend will be fine, but to anneal real, pure PC prints you need a precision temperature controlled oven. We're talking being able to control temps to a 10c rise over the course of an hour sort of thing. Without such control, you might as well not bother annealing pure PC as it won't be beneficial. Of course, it's better to just print PC in a 120c chamber to begin with so there's not any printed in stresses resulting from the part cooling too fast, but most people don't have setups capable of that.
@jcugnoni
4 жыл бұрын
Great video. Another property that would be interesting to test is the creep resistance. I have had several PLA part fail over time under constant load (preloaded assembly for example). I guess that increase in crystalinity could reduce the creep rate. For the load, you could compare several heat treatments at 70% to 80% of ultimate strength for example.
@mcoozfpvish823
4 жыл бұрын
man your videos are so informative... deftly got me hooked
@dbaznr
4 жыл бұрын
There are different results changing the infill density. 10%, 50% and 99% behave differently, especially regarding the type of deformation (uniform in X and Y). Z shrinks less, meaning that there is not a big layer fusion. Also, the deformation depends of the infill pattern used. A ventilated oven usually distributes the temperature more evenly. I'm not sure of the benefits of the slowdown temperature because in any case the skin remane cooler than the interior, and the process of loosing energy depends mostly from the geometry of the part, creating deformations. I'm testing the results using the microwave oven...
@antone.henderson
4 жыл бұрын
Thanks for the enlightenment. Explaining a complex matter in an easy to comprehend format is no easy undertaking. Regards Tony
@danapatelzick594
4 жыл бұрын
Your work is really done well. Please continue.
@ElectricalInsanity
4 жыл бұрын
I wonder if using a heated build chamber would make a difference in layer adhesion?
@Slavko_Husam
4 жыл бұрын
good question, I would like to know the answer too
@faxxzc
4 жыл бұрын
Yes it does. i get up to 100% adhesion in the Z compared to the xy
@Anon.G
4 жыл бұрын
Yeah it does, same with lowering the fan speed
@MrHeHim
4 жыл бұрын
Keeping the print warm definitely helps with layer adhesion, same with slower printing speed (really slow) and slower cooling fan or just turned off. Which has me investigating how to turn off the cooling fan for internal fill, so that the fan only turns on for the shell. Furthermore, so the fan only turns on at a certain level of degree and ceiling layers. So that when you print vertical walls there's no cooling fan, but once you reach let's say 75 degrees it starts to kick in or ramp up for the outer shell if its printing outwards or the inner layer if its printing inwards. Might have to write my own code, haven't done that in a while lol.
4 жыл бұрын
@@MrHeHim you don't need the fan for pla but it does help with bridging and you should be able to enable it just for bridging easy enough.
@ChiralSymmetry
4 жыл бұрын
Thanks for the video! Very interesting. Two things you may want to investigate in the future for annealing of PLA: (1) Some manufacturers make PLA that is specifically designed to be annealed. My understanding is that these types of PLA have solid particles included in the PLA that are supposed to help "seed" the microcrystalization process. (2) I think there was speculation that PLA with pigments (colored solid particles) would more easily crystalize than PLA with dyes (colored chemical dissolved in the PLA as a solution; no particles). If you have time, I would be really interested to see you perform similar tests on, say, white-opaque PLA (which very likely has pigments like titanium dioxide, zinc oxide, etc.) as well as PLA that is specifically designed to be annealed. I have no idea if there would be any difference in results. There are numerous academic papers on annealing PLA and PLA crystallinity. It would be interesting to see if your results are roughly the same as theirs. They studied things like annealing times and temperatures (crystallinity vs time at a given temperature), mechanical properties, and microstructure.
@jack0cat
4 жыл бұрын
I’m here because the 3D printing nerd suggested that I check your channel out. I’m glad I did and I subscribed.
@jacksin3323
2 жыл бұрын
Heres a tip for using a home oven vs a professional rig... Your home oven has a 25°F swing in each direction, because of how it samples and corrects temp changes... use a foil "tent" or keep your pieces on a cookie sheet with another cookie sheet on top to act as a heat sink/thermal regulator. I heat treat steels in my home oven. It also helps to keep a second thermo inside of the oven. I keep 2, one sampling the heat in the oven, and one inside of the cookie sheets. You need to stabilize temps on product to yield ANY scientific results worth anything. If you need more tips, lmk. I know how to mod an open door toaster into a great heat treat oven.
@johndavid4825
4 жыл бұрын
I just ran into these videos. I love them! I thought I would comment on two things. The first is that I have never seen a DIY notched impact machine before. Brilliant. The second is that you could also print a little finger (similar to the max travel on the imact tester) for your finger torque wrench to record the max there as well.
@rorrybellows3365
4 жыл бұрын
Love your channel, such a great reference for research and knowledge
@jonboyte
4 жыл бұрын
There are some factors in the heating and cooling. Since heat rises, the top of the part is the last part to cool, thus why you see different expansions in z versus x and y. If you could somehow put the parts in a 3D rotisserie as they go through the process, you should see a more uniform change in size. In large turbines, this is why they have to keep turning during cool down or they bow “upwards”.
@Hernerokka84
4 жыл бұрын
Weird thing I've seen in doing some annealing tests of my own is that two different brands of PLA shrunk and expanded in different directions. Both test parts were printed in same orientation and annealed in same orientation as well. Still one of them expanded in X direction and shrunk in Z and the other one did the usual shrinking in X and Y and expanded in Z.
@kleingarrett55
4 жыл бұрын
Great job Steffan! I have a presentation coming up that I'll be sure to plug your channel during :) looking forward to the next video. Definitely doesn't seem worth it with this material considering the warping the time would be better spent optimising design and print settings. I'll definitely continue to push people towards PETG for heat resistance and durability.
@georgelaskaris1682
4 жыл бұрын
Boiling Water Annealing. I made a 5 inch screen shroud for a backup camera installation on my wifes car about x170mm y130mm z130mm from pla and covered it with fake leather upholstery ! So in about 5 days it just melted and annealed rock hard on the dash under the sun. I then reprinted compensating about +5% on x and y and -4% on z axis. I then annealed in a pot on the stove with BOILING WATER for 35-40 minutes and let cool. Short story, The thing is now on the dash over 6 months under the Greek sun (60-70 degrees on the front dash) and it has not deformed in any way, I did make a few small 100mm x10mm x5mm test print strips before with the 100mm test print on each axis. I suppose the boil anneal process keeps preasure on all surfaces the same for minimal deforming. I dont know about strength of prints but temperature resistance increase for prints is about 30-40%. Parts annealed in boiling water have to be secured and not dance around or some deformation may occur . Thanks for all the great tests you do for us.
@christianmarkussen6412
4 жыл бұрын
Great video as always 👍. I have tried annealing high temperature PLA and found it to have a positive effect. I don't have your test setup but did a simple bend test by hand and found the annealed piece it to be a bit stronger. I did get some warping when I annealed at 100C but none when I used 85C. I had the best results (no warping) when I let the part warm up slowly with the oven rather than putting it into the oven after it was warm. I also let it cool down slowly after an hour of annealing. Supposedly the HTPLA also gets better impact resistens after annealing. It would be great if you could test HTPLA to get some real data on it. Keep up the good work 😀
@japonicaren
4 жыл бұрын
What brand of HTPLA?
@christianmarkussen6412
4 жыл бұрын
@@japonicaren I have used the Proto Pasta HTPLA V2 and the HTPLA Carbon fiber. I really like the CF for functional parts that need to be strong and it prints great.
@paulb8264
4 жыл бұрын
You tried sand but I was wondering how well something that sets like plaster might work? You cast a part, heat treat then wash away the plaster. It sounds like a ton of work but might be worth investigating
@enjibkk6850
4 жыл бұрын
I was wondering also with plaster... when it has hardened, and assuming that the part is completely filled, could the part then me heated to much higher temperature to completely melt the PLA and sort of have a 'cast PLA' part ?
@ryanlangan1060
4 жыл бұрын
Using plaster is an interesting idea, but if you're going to all that trouble, then just do an investment casting. Once the part is covered in plaster, you can bake the filament out and cast metal inside. Takes some planning to cast properly, but you get much better parts.
@chomp7927
4 жыл бұрын
The amount of effort required to make sure the plaster gets into every single nook and cranny, and then taken out when done, would not be worth the 10% gains while maintaining the same dimensions, if it even works. Instead of going to all that hassle, just use something 10% better from the start, it'll be cheaper in the long run too
@a930913
4 жыл бұрын
Encasing in plaster and reflowing makes the part way stronger. Print 100%, mix plaster and immerse part, wait until set, then bake at 200C until temperature will be even throughout. Let cool and wash away plaster. Keeps a lot of detail, though any air trapped will create a void at the top. I suspect with further research I could print an integral reservoir to fill the void and let the air out of the piece. Fridge clips I was printing kept breaking along lamination lines, but reflowing them removes all lamination.
@leofortey7561
4 жыл бұрын
@@a930913 you might as well build a rotational mold machine and use plastic pellets. This is FDM. You get what you get.
@TheNorthDevonOrganist
6 ай бұрын
the expansion in one direction (generally) is caused by the oven heating up all the trapped air bubbles in the material and stretching it.
@avejst
4 жыл бұрын
Great video as always Thanks for sharing👍😀
@nict2618
4 жыл бұрын
I recently tried drilling small holes on opposite side of my print. With about 20% infill I then used a syringe to push epoxy and silicone glue through two different parts. I used a transparent filament with about 2 or 3 walls. It drastically changed the feel of the parts. You should try testing some hooks that have epoxy or silicone in them. My only problem is that the epoxy got pretty hot.
@Makak0007
4 жыл бұрын
Use epoxy which cures slowly (as opposed to regular epoxy). This way you generate the same amount of heat during chemical reaction but you have much longer time to dissipate it, therefore the max. temerature stays way lover.
@Makak0007
4 жыл бұрын
lover = lower
@angry_zergling
Жыл бұрын
Oh that's so awesome I just got into 3D printing, had some parts that needed extra rigidity, and was thinking of the exact same thing! cylindrical voids running the length of the print injected with something, or geometry resembling lightening cuts in the appropriate orientation filled with JB weld.
@elrondmcbong467
9 ай бұрын
I absolutely love PLA, it's sturdy, tough, pretty abrasion ressistent, comes in a gazillion of colours, is cheap, stupid easy to print, almost impossible to ignite, doesn't need any mods for your printer and doesn't release nasty fumes while printing. The only real downside really is its low temperature it can ressist against deforming. If you could bring the point where it looses form stability up to 80°C, 90°C or even around 100°C with annealing, it would be pretty much the perfect allround filament from which you even can print car interior parts without the worry of warping like crazy.
@lornelorne5727
5 ай бұрын
"doesn't release nasty fumes while printing" - false. Be careful with that. It's a common misconception that PLA printing is totally safe. Some people are even printing in their bedrooms overnight. Shocking. You don't want to be breathing this stuff in. It's not as bad as ABS but it still releases harmful fumes and clouds of micro plastics. There are studies showing this. And long term effects are unknown.
@tstevens06ts
4 жыл бұрын
I have used PLA in my car. Initially PLA was softened by sun heated ambient the first time it was exposed. The next day and other days that were hotter it did not soften again.
@AquariumsToGo
4 жыл бұрын
I live in Queensland...so I had something more akin to a blob after the first day.
@Thomllama
4 жыл бұрын
Awesome as always,!!! I do hope you try HT PLA’ s generally made from a raw 850 or 870 resin. These PLA’s are higher temp and generally take to annealing much better than the standard cheaper PLA resins most filaments are made from!
@pomprocks
4 жыл бұрын
I'd love to see tests with 870.
@rogerneilhogg
4 жыл бұрын
Hi. I swear by the. Using 3D fillies pla plus. 100 c for 30 min. Raises its temperature stability to over 100c. For parts that may get hot in a car it’s a must. Shrinkage is only 1.5 pct xy and expands 1 pct z. I don’t use a cool down step. Whip out of oven while hot and then clamp them down on a cold metal surface. Also have some wooden jigs to hold the critical dimensions in place during ht. All this adds up to quality stable parts that look great and take the very hot Australian sun. Strength is also much better. I have tried this on several pla brands and not all respond the same. Stephan. You should do these tests on ht pla or pla plus. People will be put off based on this video. It’s never a blobby disaster for me with ht. Just get the right material.
@FrancoisMathieu
4 жыл бұрын
Thank you for putting the time and effort in making those great videos. I really appreciate your scientific approach to 3d printing.
@donamills
4 жыл бұрын
So damn informative. You save me and the community soooo much time. Thank you.
@woopdeedoodaa
4 жыл бұрын
Please try annealing parts immersed in common household oils, castor, canola/rapeseed or vegetable oils in particular. Its would be interesting to see the different effects that each oil had (if any) due to chemical compatibility and the duration and temperature of the annealing process. If you use the gyroid infill pattern and had drain/fill holes in the part where it wouldn't affect strength then, as its a "porous", the oil could evenly contact all of the material evenly, reducing warping, and as it would allow the parts to be brought up to temperature evenly it should more throughly and evenly annealing the part. I'd suggest a process of annealing at 45c, 60c and ~75c for 20, 40 and 60 minutes. That would be a 3x3 matrix of results. Ideally one such test for each oil type. I think this is the most complete process that could be done in the home environment.
@oadka
Жыл бұрын
Such systematic testing, thank you so much.
@RentableSocks
4 жыл бұрын
please try this with Esun PLA+ , in my experience it performs better than standard PLA when annealing.
@iandawkins2182
4 жыл бұрын
I use eSun filament as it is a great affordable filament. Have also had some great results with Hobby King own brand filament too.
@boggisthecat
4 жыл бұрын
Ian Dawkins The more expensive HobbyKing stuff is made by MCPP: www.mcpp-3dp.com The engineering PLA - ‘PLA-X3’ - is very good but a little pricey. It has very good annealing behaviour.
@iandawkins2182
4 жыл бұрын
Thanks that is useful information.
@kwad3d10
4 жыл бұрын
Thanks for keeping your channel "real". I can't stand other fake printer channels where the host talks funny and acts fake on camera for subs. Not to mention they don't even know how to properly tune a printer and post prints covered in cobweb strings
@CNCKitchen
4 жыл бұрын
Thank you!
@S41t4r4
4 жыл бұрын
There are fake ones?
@kwad3d10
4 жыл бұрын
@@S41t4r4 Only one in particular off the top of my head. but everyone has seen the channel. its a great channel for new 3d printer users but anybody with some printing experience can see their lack of knowledge displayed by the quality of their prints.
@AS-ug2vq
4 жыл бұрын
@@kwad3d10 who?
@kwad3d10
4 жыл бұрын
I don't want to point fingers.... just keep your eyes open. Im not saying im a expert printer or anything but I shouldn't have less strings on my TPU prints than their PLA ones LOL
@Serachja
4 жыл бұрын
Great video, thanks for the upload. In case you try it with ABS, I just finished a test myself. I think Thomas did something similar but he chose around 105°C for the annealing temperature for both PLA&ABS. I just did the annealing of ABS at 140°C. The reason being, that PLA has a glas transition temp (TG) of 60-65°C and ABS at 105°C. I've seen that the annealing of PLA works at around 100°C, so 40°C above its TG. Therefore ABS has to be annealed at around 145°C. My Part shrank but the geometry remained ok. All the best with your experiments! Edit: sorry it wasn't Thomas video with the ABS, it was your video as well. It's name was temperature resistance after annealing and you inserted the parts at 110°C (PLA,PETG,ABS). I would suggest setting the temperature 40°C above the TG of the material being annealed.
@rmatveev
2 жыл бұрын
Such a high annealing temperature is not possible for parts should be accurate in dimensions. ABS is a material of interest for me as well.
@buckmanstijn
4 жыл бұрын
i work in a plastic lab and i do this all day ^^ :-D you test good !
@dinglebop9998
4 жыл бұрын
I work in a glass factory, and toughen/temper glass daily. The glass goes into the furnace, which consists of ceramic rollers running back and forth through the oven at 690-725 degrees celcius, depending on thickness. What is interesting to note is that glass SLUMPING, which is where glass is melted over a material to imprint shapes or designs into it, happen at about 650 degrees celcius. We temper at a higher temperature because it is in the oven for a much shorter time, and is quickly quenched and cooled afterwards to introduce stress in the crystalline structure and leave us with tempered glass. Things to note: The glass we put in is always a flat sheet, so deformation is minimal The glass warps upwards in the oven. As the edges heat up much quicker than the center, they lift up, and once the center heats up to a similar temperature, they lower back down (but this leaves the glass slightly warped). It can be counteracted by having air of varying intensity blown onto the glass while it heats. Rounded corners are much easier to work with since the stresses are less localised. Any holes put into the glass are generally countersunk for the same reason as having rounded corners, but they must have a diameter wider than or equal to the thickness of the glass, else the glass will most likely break during quenching and cooling. The heat is absorbed into the glass not just from the air in the furnace, but mostly comes from the ceramic rollers. A smaller panel will overheat and distort less if it travels over only a few rollers, rather than absorbing the heat back and forth across all rollers. A few seconds makes a difference. 12mm thick glass will be in the furnace for a little over 600 seconds. You can consistently have panels break at the stock temperatures, but adding only 15-20 seconds can make them all come out perfect. A few degrees makes a difference. The heaters on the furnace are top and bottom, and the top is set to a lower temperature since heat rises from the bottom. You get a sort of average between the heaters, on the rollers, but the heat is quickly sucked out from glass going into the furnace. A couple of degrees too hot or too cold can make a huge difference in the quality of the glass coming out. Colour and emissivity is important. The darker and less reflecting a panel is, the more heat it will absorb, and vice versa. Seeing PLA in the oven feels kind of redundant to me. You can't accurately regulate the temperatures in the oven, especially since you need to open the door and let heat out to put the plastic in. Having varying, unsupported shapes, such as the fan shroud. You might benefit from leaving supports on the open gap between the fan shroud and removing it after processing it. I think maybe having flat specimens only, you would automatically see more consistent results, since the heat is more uniformly distributed and warping can be minimal, but with no way to apply forces to counteract any warping, it is kind of inevitable in a conventional oven. I know I'm late to this channel/video and I can't imagine many will read this, but just food for thought.
@GregAtlas
4 жыл бұрын
I hope you cover HTPLA and PLA+ That was a great idea to use sand. I've used hot sand to bend PVC pipes without kinking for costume projects. It makes the heating more even and also prevents the PVC pipe from collapsing in on itself. I hope you continue to experiment using the sand technique and try the larger container to be thorough to see if that helps any. You also might want to try heating the sand first before pouring it in to see what affect it might have.
@mindsofgreatness
4 жыл бұрын
First learning about Volcano PLA from Form Futura, going to test out their 50 gram to see how it goes before picking up a large spool. Thanks for sharing your research!
@Gambiarte
4 жыл бұрын
Thank you for the sensational content!
@EmilyTestAccount
4 жыл бұрын
but what about the one that melted? can't have layer separation if there aren't any layers :v
@nekononiaow
4 жыл бұрын
This is an absolutely valid remark. Although the part looks different it may actually be much more functional strength wise. He should definitely test it.
@calvindibartolo2686
4 жыл бұрын
@@nekononiaow generally though being a puddle loses a crystalline structure. I imagine it'd actually be significantly weaker.......... at least weaker than the flat-printed hooks. Not sure about the upright ones though. But, I could be wrong too: after all that part is solid now
@stevesclocks
4 жыл бұрын
The best way to make a part would be with an injection mold. No need for a 3d printer any more.
@monad_tcp
4 жыл бұрын
@@stevesclocks if it only it was cheaper making the mold
@court2379
4 жыл бұрын
I want to see it tested too.
@ww07ff
4 жыл бұрын
Real engineering channel. Love it.
@Deqster
4 жыл бұрын
Oh, you're already on track to investigate inter-layer adhesion. Not looking like there is any particular advantage to heating for adhesion. What is really interesting is the smaller warppage when you stress-relieve first... that could prove useful. You might try burying the part in sand, then vibrating to settle the particulates, then compressing them with a lid/clamp. Locking the grains together might help minimize the possibility of the warping part displacing sand only held in place by gravity. It might also crush the part a little.... would have to test it.
@Sleepery22
4 жыл бұрын
Thanks for this video! I followed your instructions and tried annealing mechanical parts printed with eSun PLA+ (in my kitchen oven). I got some minor deformations, but I was able to Dremel them and use the part. They definitely feel stronger, but I can't measure how much really..
@prkl3
4 жыл бұрын
Nice Work Dude! I have annieled some pla mic adapters immersed in 75c water for 30 mins. Old coffee maker as a bath, since it has 75c thermostat. Parts in ziplock bag with an aluminium plate ensuring parts flatness and old Shure mic body ensuring tight fit after annealing. Works fine and heat transfer is uniform if you get all the air out of the bag. You really should test this. Alltho better way might be a Sous Vide cooker and real vacuum bags. Keep up the good work!
@elijahsimmons2900
4 жыл бұрын
Interesting! I would love to see other materials- ABS, PETG, PC. I do a lot of structural 3d printing for my robotics team in ABS, and anisotropic layers are always a serious problem for us. I love this channel for its approach to materials testing, and am always excited to see what new scientifically rigorous information you have for us.
@BobSmith42
4 жыл бұрын
He did comment that PETG and ABS don't have the same amorphous to crystalline change, so it'll be interesting to see what changes they go through if he follows up using those plastics.
@therouxl1
8 ай бұрын
TIP: Lower the heat by about 20 degrees but extend the "cook" time. Just as with a fine meal, the slower the cook the better. Also if you're going for better strength, you should print it slower as well. Possibly change nozzle tip/thickness etc.
@eldiagrama
4 жыл бұрын
Top quality videos as always
@angusr7805
4 жыл бұрын
I love your scientific method of testing.
@Polymate3D
4 жыл бұрын
Nice testing as always. I have wondered about a infra red heat lamp is use during printing as I did it before to reduce warping but it keeping the previous layer warmer may help with layer adhesion
@NightMods
4 жыл бұрын
Good video. I was going to try this at one point. I now know better.
@ZerqTM
4 жыл бұрын
this is useful... reducing translucency helps a lot... i am making some key chains and i really did not like the translucency... this could make it look a loot better! awesome and very helpful!
@agye29
4 жыл бұрын
ive already used de sand trick with 100% succes rate. the trick consists to mantain the sand with pressure, i put a metal sheet (a Real thick one) on the top the sand and that makes the trick. Also the sand need to be a little wet . And the PLA needs to be printed the best dry way possible. Ussing a temp probe near the print you can follow the temperature changes. When the temperature is near 110 C you need to turn off the stove you will see that the temperature stills rise up a few grades. then just like that the sand will mantain the temp near 105 for more than 50 minutes.
@BOSS-bk2jx
4 жыл бұрын
Interesting investigation as usual... I really adore the way you apply scientific method to your investigations. Keep up the good work. I wonder if the layer adhesion quality is related to the hot plastic being reactive to humidity or oxygen in the air, or perhaps some air is trapped at the interface between layers reducing the effective connection between them. Is it possible for you to make an investigation about that idea? [3D printing in a vacuum, different pressure levels or in an inert atmosphere]
@AndreasGosch
3 жыл бұрын
Moin, am WE die Salz Methode probiert, funktioniert! Hitzefestes Gefäß nehmen, eine Bodenlage mit Salz einfüllen und verdichten. 3D Print (100% Infill, Linienmuster) einlegen. Mit Salz auffüllen und verdichten. Bis das ganze Werkstück bedeckt ist immer weiter verdichten. Dann in den Ofen, Hitze bei 180°C (PLA) sintern. Temperatur sollte knapp unter dem Schmelzpunkt liegen. Werkstück vorher berabeiten, selbst anmalen mit Wasserfarbe möglich. Wird mit eingebrannt. Dauer hängt von der Größe ab.
@neur303
4 жыл бұрын
Great info, thank you! I really appreciate the effort! Do you know if this also applies to printing with higher ambient temperature e.g. using a shroud? :)
@mbalunovic
Жыл бұрын
Have not used this before but will definitely do that for parts that are likely to experience raised temps dooring life.
@Sharpapexco
4 жыл бұрын
Would love to see part 2.
@leunamtzam
4 жыл бұрын
Interesting Video, I thought it would made some advantage for layer adhesion.
@synoptic1505
3 жыл бұрын
Annealing means heating a small cross transversal section while keeping the rest of the material at temperature, then traverse the object along its length with the heat differential. You can concoct several annealing regimes, like increasing transversal section heat while going up or alternating between melt and heat temperatures, etc. What you are doing is baking the objects, not annealing them.
@panicraptor2837
4 жыл бұрын
If you want really strong parts, create 0% infill and then inject epoxy or other glue components.
@woopdeedoodaa
4 жыл бұрын
You can still use gyroid infill with this process.
@OzAndyify
4 жыл бұрын
Interesting. I might try this with PU.
@TheMastaRob
4 жыл бұрын
I have a bunch of parts on my CNC machine that I designed to be fill with epoxy granite, works really well.
@Daekar3
4 жыл бұрын
I have done this and it turned out fairly well at small scale.
@JSCB-365
4 жыл бұрын
UV resin could be used as infil with translucent filaments.
@georgekrapohl2406
4 жыл бұрын
Thanks This was very insightfull and learned alot. I was wondering if this annealing process if it followed, a reflow soldering temerature curve where you heat the parts to a specific temp for a certain time that every object can reach that temp then ramp up the temp for short period then decrease the temp slowly. Probally achieve the same results..... Or will it?
@rodryk5605
4 жыл бұрын
Love the mitutoyo caliper.
@CNCKitchen
4 жыл бұрын
Finally purchased some, worth every penny!
@NoahHornberger
4 жыл бұрын
For fixing the warps: what about annealing at slightly lower temperature for longer? Like 5 degrees less and an extra half hour? Maybe 'heat exposure' just outside the glass transition instead of after it. Then no macro changes but possibly micro changes to the weaker structures as they conform under heat. another idea would be stuck to build plate and submersion in water instead of sand. water changes temp fast, but fairly evenly.
@MacroAggressor
4 жыл бұрын
Have you considered using an oil bath (maybe with a sous vide) to maintain more consistent annealing temps? Might help with warping. Looking forward to the stress relief video.
@RyanRapini
2 жыл бұрын
Thanks for the video!
@kaleydowood5746
2 жыл бұрын
I can't be more pleased than when having access to an attempt to prove something through a measurable and reproducible experiment. You did it quite well since the birth of that channel. That said, and although I'd not be able to suggest any precise experiment that would go further than yours, here's my opinion. Hope it helps : My guess is that the filament's critalinity is already maximised when exiting the factory. My guesss is that heating it mildly (60-100°C) may solely worsen that cristalinity (btw, the change in transparency tends to demonstrate worse cristaline properties, and the elongation in Z tends to demonstrate a structural memory of the cylindrical filament : flat layers become cylindrical again). My knowledge is that cristals are naturally formed during a very slow and continuous diminution of the ambiant temperature. A (maybe not so important) fact : You're totally neglecting fundamental parameters of your questionning. Temperature may be the main parameter, but that parameter won't probably have any special powers without specific conditions of pressure, probably associated with a certain magnitude and direction of an electric (and/or magnetic) field, and probably associated with the presence in the inmediate environement of some specific physical elements (gas, ions, other cristals, etc.) participating in the process of creating and/or amplifiing the above-mentionned conditions. My guess is that a single layer of heated and extruded filament behaves quite similarly to a coil of lava. The enveloppe of a single layer becomes cold way before the inner material. Simultaneously, a huge amount of bubbles formed of various gas, that were trapped in the lava, escape during the coil, leaving the surface of the cold lava as crisp as sanding paper, and even sometimes, under certain conditions, as sharp as millions of razor blades. Then... Maybe we should look after practical solutions to keep the whole environement of the printer quite hot while printing (to precisely control the loss in temperature) and prefer moisted filament to over-dried filament, in order to take advantage of the evaporation of some micro-bubbles of water (and then take advantage of a textured surface to better melt the layers). Concerning the ideal rate at which the finished object should become cold again, maybe we could get insights by reading documentation on the original industrial process of producing the currently tested type of plastic. Maybe you already found out more since the time you made that video... Is there an update ?
@herseem
3 жыл бұрын
Thanks for this video, you've persuaded me not to bother annealing PLA, which has inevitably saved me a load of time and money
@EJTechandDIY
4 жыл бұрын
So much great content
@ronholder5844
4 жыл бұрын
I tried to anneal a Hero Me duct by using an electric water heating pot, which has buttons to reach and maintain several different temperatures. (I love it for making tea.) My parts were put inside a plastic ziplock bag. The water was preheated before I put the parts in. I had read an article on what temperature was best to use and used that. After half an hour in the water, they were too warped to use. At that point I decided I had to get new PTFE tubing and some PETG filament if I wanted a duct that would hold up to long term use. I am assuming that to maintain the temperature, while heating, some of the water got too hot. Haven't watched the video yet but may learn how to do it in a way that will keep PLA from deforming.
@itaco8066
4 жыл бұрын
Great Video! Thank you
@gnif
3 жыл бұрын
I aneal PLA at 100C for Fluid Fittings to ensure they are watertight, after which I dip the parts in hot wax at around 100C to protect them from the water.
@SSHOBBIESandMORE
8 ай бұрын
100% infill works the best for annealing pla
@Curious425
2 жыл бұрын
I would like to see this same test with powdered salt in two ways... 1st - part in slat inside a food saver vacuum bag, and put in an over, and boiling water. 2nd - use a salt and alcohol like platser to make an easy break away mold, that you could remelt and cool to part, without the problems you had with bubbles and water cleanup...
@SimonFiliatrault
4 жыл бұрын
Thanks for this! I always wondered if it would help the layer adhesion, a bit of a bummer it's not. I think we would need a printer that would be able to rotate a piece while printing and have a layers added horizontally on top of vertical ones... But I cannot think how a machine like this could work! I did many parts in two sub parts, one printed horizontally and the other vertically and glued together after to augment the resistance, works well, but more work in design and built
@stang1966gt
4 жыл бұрын
Hi Stefan! Great channel with tons of educational material. I am interested to increase part strength. Was wondering if epoxy coating will help. Or even wrap monofilament around the parts and then epoxy coat. Thank you
@Niloc1922
4 жыл бұрын
Do you have a masters in engineering? You are so smart, and I love that you use your knowledge for fun, yet very scientific tests.
@lm6036
4 жыл бұрын
You don't need something as artificial as a degree to be smart :)
@Niloc1922
4 жыл бұрын
@@lm6036 Sure, but it doesn't hurt.
@kingmasterlord
4 жыл бұрын
@@Niloc1922 student loans disagree
@Niloc1922
4 жыл бұрын
King Masterlord fair enough, however, it’s almost free for Germans to get an undergraduate or graduate degree. Getting a degree teaches you a lot at any well respected school.
@kingmasterlord
4 жыл бұрын
@@Niloc1922 yeah that would be nice, but as an American in this day and age I'm in a unique position to value targeted self education and as-needed research and study preferentially.
@leeoswald668
4 жыл бұрын
Good ginger bread for Christmas on 0:30
@AirzonesBlasters
4 жыл бұрын
I've annealed HTPLA flywheels so that they can withstand running on hot motors. While I was successful in annealing it, I had a yield rate of about 1% of "acceptable" flywheels where they hadn't warped and secured snugly to the motors. The other 99% deformed enough to not be useful.. I couldn't figure out a pattern in the failures.. To put this into context, the flywheels are spinning at 35-45k RPM with clearances of about 1mm. I found it better to just print in regular PLA and redesign the wheels to include an impeller to pump air through the motors. With this, I can get fairly well balanced PLA flywheels spinning at around 75k RPM.
@jparky1972
4 жыл бұрын
I would have been interested in finding out what the tests said against the hook that really melted. That one would really have merged the layers. So perhaps you should consider testing it anyway.
@Personnenenparle
4 жыл бұрын
@_ David _ the surface area at the breaking point would be similar sizes, so it would be very comparable.
@jparky1972
4 жыл бұрын
@_ David _ Yes. I appreciate that. It's more out of pure intrigue than anything else. If results are noticeably stronger. Then maybe an experiment with 100% infil with the piece placed in a mould in the oven to keep its overall shape and dimensions. I appreciate that this then more or less turns the part into an injection moulded part. But as I said. Just intrigued, that's all.
@mururoa7024
4 жыл бұрын
When annealing sintered metal parts you use an autoclave because pressure is just as important as heat. Injection molded plastic parts are formed under pressure: between 2 to 8 tons per square inch depending on the material. So it's not surprising you're not getting significant results by just baking your 3D printed parts.
@rmatveev
2 жыл бұрын
Hello, Stefan! I still hope you will test annealing of ABS as you planned. PETG is also interesting :)
@garagemonkeysan
4 жыл бұрын
Great information. Mahalo for sharing! : )
@thaumaturgicresearchcounci4180
3 жыл бұрын
You should have a go at hot isostatic pressing of some parts. It's commonly done for high integrity castings, powder metallurgy, metal injection moulded parts. Would be interesting to see how it might work.
@Tommygunn1
4 жыл бұрын
The interesting part of anealing pla is the improvement of heat resistance. After the anealing process, pla stay strong and not deformable up to 100 c + . I designed and printed a air intake for a car out of pla that shrinks under 5%. Works perfectly since half a year now without any issues.
@skyak4493
4 жыл бұрын
Stephan, Nice job but I think it only proves that one specific PLA does not strengthen with heat treating. I heat treat PLA for heat and creep resistance. For layer bond strength I turn off the part cooling fan and/or use a larger nozzle. For overhangs I am experimenting with air blown only at the overhangs from the side and below by ducts fixed to the build surface. This may sound like a lot of screwing around but my theory is that I save time and inventory by making everything in one foolproof material.
@LWJCarroll
4 жыл бұрын
Hi, I am used to annealing glass when making glass lampwork beads and the set annealing temp to use for different manufacturers glass. The idea being not to lock in stresses as the glass shrinks during cooling...but here for PLA you dont specify a manufacturers set annealing temp? For PLA it seems its not shrinkage but instead the molecular structure being changed by reheating up to a temp, held, then cooled? With glass you have to put the beads still on the mandrel straight into the kiln and then anneal them, as they are still way above the annealing temp. A bit puzzled here... thanks Laurie
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