How I 3D Printed a Metal Aerospike Rocket at Home
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- čas přidán 29. 07. 2021
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Virtual Foundry
Getting Started Bundle: bit.ly/3BYEF1h
Printing and sintering instructions: bit.ly/3iauNtl
General shop: bit.ly/3ye5PPt
Ruby Nozzle:olssonruby.com/
Aerospike Nozzle & Printing Profile:www.thingiverse.com/thing:492...
#rocket #aerospike #3dprinting - Věda a technologie
![Tesla Turbine [Smoke Flow Slow Mo]](http://i.ytimg.com/vi/qL3kCawHMqk/mqdefault.jpg)
Im so bored that im watching a video from a guy on youtube about 3d printing metal
Yoooooooooo
I thought I would find you eventually
I’m so bored I checked the comments
BORED
Oh yeah? Im so bored Im eating marmite with a spoon!
I don't blame that aerospike tip for melting. I'd melt in the presence of the Tomato Lord as well.
Ahahahah
420?
lol
Integza where did you get your idea from. Because two videos ago I suggest this to you.
@@integza dang it inetzga
video idea: use the 3d printed metal to make more sturdy gears and make a functional vehicle with them.
That would be very hard because the gears may shrink at different rates or warp slightly causing the gears to break themselves
you mean an RC vehicle? because that's as much as you could accomplish with that
Cool idea, upvoted it, buuuuut...
Why not just sand-cast them out of aluminum? O.o
@@Cheebzsta aluminum has a very low Melting point
@@Firefox-cr3jw Right.
If the gear system on your vehicle is directly exposed to combustion gases your problems have already eclipsed the melting point of aluminum. ;P
OPs idea is worthwhile, though. Just pointing out that there are valid ways to do that which aren't necessarily less *work* but are certainly more accessible.
No specially ordered kilns required or special filaments and all the parts are easily DIYed.
I love how he gives away 3D printers. He is supporting and inspiring to invent. Hats Off!
"It melted the steel!" Yeah, this is why aerospikes are generally a bad idea... (actually one of the biggest reasons they aren't really used). You could try a de Laval though!
Works too good.
Materials science falls behind too.
May need to be a holographic part.
Somehow.
c/d nozzles are useless when the fluid is below mach 1
I think you may have won the 3d printer :D leme know if u did and what u going to make you should make a crossbow or bear trap them would be cool if you win
@@joeyidontnoyu the point of the nozzles is that they compress it to reach mach 1 at the throat, and then expand. A really small pressure could be brought to mach 1 with a small throat
@@JerryBrower the problem is most likely foremost the excess oxygen literally burning the metal away. it isnt melting as much as it just gets oxidized super fast
The nozzle didnt melt, it burnt. The oxygen rich exhaust cobined with the heat is oxidicing iron/steel increadibly fast
Watch from 16:19-16:25 on 0.5x speed. At about 16:22 you can see the nozzle throw out of the exhaust.
I don't know if this means it melted or burnt or whatever... Well, technically it did neither. The supports did, and the nozzle flew off.
Also, there are a lot of sparks and pieces of metal flaking off during the entire engine burn. I honestly don't know fully what to make of it, but I'd say the force of the burn plus the temperature is causing the metal to basically peal off. Maybe a better sintering would counteract this somewhat.
@@plzletmebefrank I'd argue that Sintering will never be the way to go for this; leave too many pores and makes the metal awful for cooling
@@vaelophisnyx9873 Yeah... That does seem likely. It also makes it so when it expands from heat, it'll kinda pop and break apart, easier to flake off, easier to peal away...
Hmm. Yeah. I'd like to see exactly what that bronze looks like on the inside close up. Like if it were cut in half and then put under magnification. How solid it is, what the gaps look like.
@@plzletmebefrank Might work better at larger scale where heat dissipation (be it "into the mass" or a coolant) is a bit more manageable. Hot spot develops in small parts, not a whole lot of time to react to it in some way to prevent catastrophic failure.
Not that real deal big boy toys aren't known for spontaneously going wrong... 🤣
Turned out beautiful! Looks pretty time intensive though.
I think it'd be pretty interesting to try printing a tensile test bar with it, and compare it to homogeneous mild steel -- see how much strength you lose with sintering vs e.g. machining. Although I guess for rocket engines yield strength doesn't really matter haha
It totally matters. If your rocket explodes due to pressure, I'd say you have an issue.
@@nikkiofthevalley Thats not what KSP taught us! If it explodes, put moar boosters around it to suppress the explosion!
This filament is so cool! That open's up a lot of possibilities
Project concept: Try powering the rocket with gunpowder. You might not even need extra oxygen to do that.
Next idea: Try making a Tesla turbine with 3D-printed metal parts.
Another idea: Make a rocket out of household items and see how good it is.
I would love to see Yours interpretation of one of these ideas :)
thanks guys for discussion about my idea :P
Keep in mind that Tomatoes are disgusting!
I'm not sure that last project is responsible, what with enabling people to do dumb stuff and all. Sorry if I'm wrong, tho.
Gunpoder reacts too quickly, it will just explode
@@heyitsgowcow spell check?
I built a flying object from household crap. How is a rocket defined?
Burning fuel propels an object by thrust.
Homemade "Firework" with 6' steel bike gear cable pulled a kite up into the sky.. Rocket power??? Just asking?
You can't get gun powder, ammonium nitrate, and a whole host of other things in the EU so easily, and if you did, if you used it for this purpose it would be illegal. Model rocketry is essentially banned once you go beyond 100m. UK, not part of EU has seems more liberal about it, and also Sweden.
@@ZeroCool-vn9bd wow, here in the us, we have modle rockets that go well above 100 meters, I made one that went 6000 ft up, some people have made model rockets so good that they are essentially real rockets, they make it to the Karman line, those ones need faa approval for a specific location and need to be many miles from any population, faa makes sure it wont be in the path of a plane.
There's no need to use special "sintering carbon", any activated carbon should work (sold for water filters or fish-tank filters). Or even a carbon source that will become activated carbon on heating, like paper or wood, though that would require a ceramic tile to lay on top of the crucible to limit air getting in. Putting a tile on top of the crucible to limit airflow is probably a good idea regardless.
Makes sense too me~~:)
Yes, this right here is correct: Any plain old charcoal will work. (not the BBQ stuff with fillers, regular charcoal)
To make it easily, put the cheapest untreated wood (not driftwood) in a metal can with a hole in the top on a fire or in a kiln. Roast it until the inside is black all the way through. granulate that by putting it under a rolling pin and seiving to the desired fineness.
@@notamouse5630 you mean BBQ charcoal ISN'T regular charcoal? 🤔
@@PatrickKQ4HBD They can have additives in them, afaik to keep moisture out and binders to make it less brittle. You can convert BBC charcoal to activated carbon, by burning it without the presence of oxygen, pyrolysing all the unwanted stuff to gas.
@@PatrickKQ4HBD BBQ Charcoal is not the material charcoal. It is a mixture of mostly ash and a little real charcoal powder so it burns as coals the moment its lit. Real charcoal is more often used for forging steel and similar and its only made of carbonized wood.
I think you should try this: make a negative mold of your nozzle in ceramic, then melt a bunch of the steel filament and pour it into your mold. This should reduce shrinkage to a minimum if you overfill the mold a bit, and then you can sinter, and all the metal will sink thanks to gravity, leaving you with a 100% fill part with no defects... Also, aerospikes need to be cooled internally, otherwise they melt, even in real world engines.
I recommend casting. Brass melts at 900C, flow and fill cavities nicely. You can have it for free if you look around.
"I know steel is not impermeable to temperature"
You mean impervious. I thought you'd want to know.
Well, it's also not entirely untrue, steel _is_ permeable to temperature (i.e. temperature can make its way through steel). But yeah, "impermeable" means something can't get through, while "impervious" means it's not affected.
Actually, I just had to check since I don't trust my own understanding of the english language, and at least according to Merriam-Webster both are synonymous, at least for the definition of something "not allowing entrance or passage". My second part (and yours) is correct though, when talking about something being unaffected by something else, "impervious" is the right word to use.
@Карасик Ерохин извините, в следующий раз постараюсь быть поинтереснее :P
@@LordHonkInc не беспокойтесь о нем, другие должны просто постараться не быть засранцами :/
As a fellow pedant, I salute you!
@@chemistryofquestionablequa6252 It's not pedantic, questioning people want to know.
"evil oxygen"
Oxygen: but I'm the reason you guys are alive
Oxygen is highly addictive and kills people in tens of years
@@PanDiaxik I mean yeah but without oxygen you would die instantly
Sadly Oxygen slowly kills us. Nitrogen is why we live as long as we do.
@@Kevin7557 Now seriously, you are right. Breathing pure oxygen makes organism produce toxins faster than they can be removed which leads to death much faster than breathing air.
It's also the reason we are slowly dying.
see free radicals.
That was awesome integza. One thing I would suggest is retrying this after sandblasting the nozzle path to make the surface flush in order to avoid any turbulence in the flow.
woah! Really nice video. That was really really time intense, and you've spend a lot of your time for this. Congrats for your project
To much oxygen, reduce it so that nearly no unburned oxygen reaches the aerospike otherwise even tungsten will burn uo
tru
The nozzle isn't so much melting as oxidizing (aka burning)
Would the issue be slow rate of his oxygen supply? or is it ratio of oxygen to a non-flammable gas? Could this aerospike still work?
@@richardsuckerson49 ratio.
Edit: perfect flame is just enough oxygen to fully burn the fuel. He used more oxygen than the fuel needed so he accually burned the steel away (see wiki Blowtorch, this concept is fully explained)
@@Florious420 ah that explains why on old blowtorches if you didnt give it enough gas you can see the metal burning.
14:41 "Please focus"
Me watching this with ADHD: I'm doing my best!!!
haha, I thought it was just me.
I have been loving this dude in his journey to make a home made rocket I swear
i am impressed.
this 3d metal printing thing is probably very useful. one day i'm going to find a practical use for it and do it myself too
Nice work. Having worked in the rocket engine business for a few years I have a few suggestions to make your nozzle last longer. I suspect given how long the flame out the back is you are running significantly oxidizer rich combustion, and that is burning out the steel nozzle the same way an oxy acetylene torch would cut through steel. Fun fact about oxy acetylene cutting, once the cut is initiated you can cut the fuel flow and finish the cut. I'd try running less oxygen if you are going to stick with the steel material you are currently using. Second suggestion. Material change. The site you got your materials from have an inconel 718 filament listed. I don't know if your overn will do their sintering profile, but of the materials I saw at a quick glance that inco 718 material has the best shot at resisting oxidation in a nozzle application. A monel or mondaloy would be better, but I doubt they will be making those into filaments anytime soon. Third suggestion. The metal filament company has an aluminum 6061 filament listed. You might try printing your fuel grain out of that and not sintering it. Aluminum will be a lot more energetic than the plastics you are currently using as fuel. One bot about that is that the exhaust will contain aluminum oxide which will cause serious erosion/abrasion of your nozzle throat. Just a heads up. I hope you found this helpful, and if you ever have any questions about rocket engines/technology I'd be happy to chat. Keep up the great work and stay safe!
I don't know that anybody has really used a solid aluminum fuel grain in a hybrid.
People have experimented with adding aluminum to wax and rubber grains but not like your are suggesting. In this case, I suppose it wouldn't be solid if you left out the sintering step, but you risk the fuel grain being too brittle, cracking, clogging the nozzle then motor go boom.
The core issue to hybrids is getting high regression rates of the fuel, which is why wax based grains are generally preferred. A lot of people have spent a lot of time trying to get the right balance of physical properties with high regression rate.
Honestly, might be good to try just using the printed part without baking off the resin at all. That wont really help with regression rate, and the temps would be much higher so the printed aerospike would not survive, but it would look neat.
Try it with a standard graphite nozzle.
I think the best answer to this particular bench top demo motor is to lower the oxidizer flow rate. Or build it up as a bi-propellant with gaseous propane, dial the O/F ratio running fuel rich, then test the aerospike nozzles.
I have questions for you. I feel like a bell nozzle would have had greater success, more likely to keep the sides cool. easier to make changes. simpler to 3d print. with a bell nozzle you might be able to print it in multiple materials like have the inside have a ablative material that would take the heat with it for its short operation cycle. how do space shuttle tiles work? can they absorb the heat if they were made the lining of the engine? is any of that possible?
@@keith3761 I have some answers. Let's see if they go with your questions. A bell nozzle I think would have the same issues of erosion and potential for combustion of the nozzle material at the throat, plus I don't know what pressure he is running and if he would benefit from additional expansion. The bell nozzle only works if you have enough pressure to choke a converging nozzle and then still have enough pressure to accelerate the flow to supersonic velocities. So that's a hard one to know for sure without a bunch of instrumentation. As far as easier to make, I'm not sure. The simpler the nozzle geometry likely the easier it will be to make in my experience. Multi material nozzles are all over in rocketry. It's popular to make nozzles out of phenolic ablative material and use some metal outer layer to give it the structure it needs to survive the pressure. I also think I recall seeing inserts for solid rocket motor nozzle throats, but I can't remember off hand what they made them out of. They were there to resist erosion from the hot aluminum oxide rich exhaust gas usually. The space shuttle tiles were not ablative from what I remember. They were a carbon carbon composite that could withstand tremendous heat and not lose their structural integrity. Given their difficulty in manufacturing I think they might be beyond the typical hobbyists capabilities to make. They mostly worked by not absorbing the heat. They were more of a heat shield. As far as using them in an engine, I suppose it's possible, but I've sure not seen it done. Most of the time they either cool the surfaces that need it, or just use an ablative material there.. I'm not sure if that's a "we've always done it that way and we aren't going to change" ,or if it's more of a " we tried that and couldn't get it to work right" situation. You would be surprised how often in the rocket industry it's it's former. I have seen a carbon fiber composite rocket combustion chamber and nozzle before. It was pretty slick. It was cooled by hydrogen leaking through the inside Lauer into the combustion chamber and nozzle liner. That was a cool bit of engineering. I hope that answered your questions, and if you have more please feel free to keep them coming.
Edited to add: you are probably right that a bell nozzle would be easier to make, i forgot this was for an aerospike nozzle. Tha difficulty with the bell nozzle would be in sizing the exit. Too much and you overexpand, too small and you underexpand. You can only size the bell nozzle perfectly for one atmospheric exit pressure and throttle condition.
I am in the rocket engine business as well and I have no comment. He did a damn good job for delivering a hybrid for the lowest cost just for the sake of it.
@@mitchelwendland5195 really cool to hear about niche industry experience like this, thanks for sharing!
Video Idea: with this new knowledge and the possibility of printing metal at home try to create a liquid-powered rocket that runs on O2 and RP4 or CH4. (Create a mini raptor engine or something similar). Would make for a great project and especially would be very interesting, because rocket science at home...
edit: It would be even cooler if you could integrate this into a model rocket
Copenhagen suborbitals basically. Also thats dangerous. and check out charlie garcia.
Making liquid fueled rockets is hard because you need to somehow pump the fuel and oxidizer against the pressure of the reaction chamber. Hybrid N2O/PMMA engines are easier for the amateur because N2O will self-pressurize at room temperature while O2 and CH4 must be pumped as cryogenic liquids.
This seems pretty cool. Agree with Estelon, check out Charlie Garcia he makes some pretty cool rocket launches
compressed CH4 could work. It might be way easier than doing a hybrid style like in the video. I wonder if he could even design cooling channels right into the engine block. Supposedly that is why most major rocket engine manufacturers are switching to some form of 3D printing.
It would be cool to see him put this aerospike motor on a hobby rocket and launch it
Great job integza this video was pretty awesome to watch
I'm old school. I would have 3D printed the model, then made a silicon mold of it, with Aluminium powder to keep it rigid. Then I would have made a cast of the piece in plaster, created a mold in epoxy resin with 'green sand' & poured in molten Aluminium. Of course you could short cut the process by creating a 3D printed mold, rather than the piece itself.
Now that is what I'd like to see Integza do, make a 3D printed mold, so I can skip the silicon mold step.
I would also like to see Integza make a 3D print from either a LIDAR scan or Photogrammetry scan with a tutorial on which software to use. He can use a family member as the scanned object.
Obrigado Integzinho.
If you've got an excess of Oxygen going through the nozzle, then it's going to act like an oxy/acetylene torch where the heat plus the O2 burns the steel away, destroying the nozzle in the process.
Yes, this is 100% the issue. You can tell by the flame color and sparks that it is oxidizing. Too much oxygen will destroy pretty much anything. Cooling the nozzle will not help. You want a slightly fuel rich combustion to prevent this from happening.
Or maybe it might be possible to design the engine to have a gap between the flame and the nozzle like most oxyfuel torches work
@@joshuahuman1 that would result in a significantly lower thrust.
How about making the o2 port smaller, that away less o2 coming in the combustion chamber that away it’s a richer mix or how about something that burns a little bit cooler. You won’t necessarily lose thrust this way.
Engine-rich exhaust is the industry term.
as scott manley would say: "engine rich exhaust"
I'm impressed. I truly enjoy the way you experiment with certain materials going way outside the parameters of what their engineered for. And that is how you make progress and now we know. Yeah it's going to fail but it was cool!
not one successful person made it there without first failing. it is a step in the process.
I love that you show your fails as well as victories. For a future video....a rocket propelled arrow that is shot from a bow. Or even just print different sorts of arrows and shoot them from a compound crossbow then evaluate the damage...the sharpness held by the arrow after being shot into wood or a hay bale, and the accuracy of a rocket driven arrow.
Maybe figure a way for the rocket power to engage after the arrow is fired.
Or propell a paraglider if you are feeling super adventurous
Print the nozel in a way, that the Fuel/Oxidizer first runs through cooling ducts on the nozel and then burns away
(Thats what actual rockets do sometimes)
I think your overestimating the tolerances of 3D printers on small parts
Hasn't he used a design with that before? Or has he just mentioned it a lot...?
As someone that just appreciates engineering this was PROPER sick
ROIGHT proper sick m8
This is a great process. Slight pressured casting in a jack in the box/tomato press could perfect that mold for heavy use.
Solid effort! Thanks for the information!
If you're already in the business of sintering metal, perhaps you could build a nozzle from layered sheets of metal cut out by a water jet cutter, or laser.
WOW!!! now that is a very interesting concept .
Try making a wrench of that metal fillament , they tighten a blot so we can really see how strong it is in practical applications
aah yes thats how you evolve from cutting trees from trees to tighting a bolt with a wrench which i made from maybe recycled bolt metal
My inner mechanic would enjoy that idea
Curious if layer orientation would matter after sintering like it does with just plain parts..
Or loosen a rusty bolt.
Great video, didn't think it was possible to 3d print metal with a run-of-the-mill home 3d printer, but it is, apparently! Some tips:
-You can 3d print the rough shape and then work it with a milling machine and/or lathe to get it to a precise shape
-weigh the shape, then measure it's volume by submerging it in water and note the displacement. Then you can calculate it's density so you can get an idea of how solid it is, which you really want with anything load bearing.
-as a wannabe rocket scientist, I find this a great development. Now if I can only hire a nice volcano somewhere for my mad scientist laboratory..
i never cease to be amazed by jets, its just so cooool
govorment: work at home
NASA:
Texas:
gubbermint d e n i e d
Shoveldent: work at home
Aerospike engine makers:
No
When I get a YT notification that there’s a new Integza video, I stop what I’m doing and click to watch. Simple.
I was doing my class which I left in middle to watch this video😂😂😂
Looks great!
I think you could Also check of the part is solid by determining the density and them comparing it to the metal you made it of. Requires less holes ;-)
dude, I love your videos .. keep them coming.
Of my 293 views from Portugal, how many are you?
420
Why?
sim
59mil 3 horas apos postares o video 😄 e bom ver este canal crescer 😉
Brazilian i am.
Printing metal filament is something that seemed just too good to be true but apparently isn't anymore.
With this you can maybe revisit the tesla valve pulsejet engine!
True.. but it seams like its limited to metalls with fairly low melting point. I guess incanell is out of the question
@@matsv201 I'm not sure, I personally don't see any reason why if your foundry reaches high enough temperatures that you couldn't use higher melting point metals. Layer thickness seems to be a limiting factor currently. Although I don't think the parts from this 3d printer method are homogenous enough to be used for high strength or high temperature uses. But it fits the niche of home printing for when plastic is too weak. (Although having an oven capable of this is still beyond most)
For industrial aplications this is too slow and labour intensive anyway but printing with lasers and metal powder does work a lot better. Although still way too expensive for home use.
@@matsv201 Nope.. they have inconel, copper, titanium, borosilicate glass and ceramics.... hell, they even have tungsten filament..
@@squidcaps4308 but that sounds like yoy cant sinter them... then you burn up your oven
It isn't very often I find myself watching CZcams videos and having a laugh to myself you sure are a character 🤣
Bro, you did it again! Amazing video! Good on ya!
this is one of the most amazing thing i have ever seen. The thought pf 3d printing metal at home is just amazing! Thanks man for showing this to us.
Video idea:
Since you seem to love rotating forces, let's exploit the momentum.
Build a gimbal with 2 rotating disks shifted by 90 degrees (X and Z axis stabilization) and use their momentum to cancel the vibration induced by the camera operator.
That's a pretty cool idea - active gyroscopic stabilization (if that's how that works anyways)
@@birbo5603 yay, in theory I can't see a reason why it wouldn't work.
a 3d printed gimbal that can be used for dslr cameras? that would be cool and incredibly useful
@@xandarian55 I know, I'm commenting this from 2 videos ago, not at the top unfortunately :(
Hell yeah! Proof of concept right there!
would be interesting to see whether induction heaters can be used
ps. remelting it (salt baking style) as a pre-processing step might help the layer separation; also, copper alloys might be better for rocket nozzles as they might melt, but will not oxidise into obscurity
thats what I want to know, induction heating could bind it within seconds
Need a DIY heat source. That kiln is way more expensive than the 3d printer.
@@hexdude24 indeed, it would be nice if a microwave oven could be used
Now carve a aerospike rocket out of graphite because it has a high melting point and is easy to shape
Graphite burns...
With thus amount of pure oxygen in the mix even stone will burn
Graphite oxidises... that's why you can't use a graphite dish in a torch based kiln
I’m impressed. 👍🏻
You should try to make a model airplane with all your jet engines (maybe as a collab with Ramy RC)
Yes
Nope do it with Peter sripol
You mean with the engines that produces way less thrust than they weigh, even without the large oxygen / fuel tanks that he feeds them from and those that explode almost every time after 3 seconds ? Sound like a good idea :)
Ramu rc
Or maybe project air
I was reluctant to buy into the whole 'printing metal at home with a normal printer' thing until you hammered that nozzle into the wood. That right there sold me.
16:15 the sound is just majestic
Hey integza, from my experiments with sintering I got the best results packing the parts in fine Epsom salt and only a thin layer of carbon on top. I'd give that a try
Epsom salt contains nearly half its weight in water, and partially liquefies when heating. That should cause problems...
@@Nuovoswiss I was thinking the same thing. It's a penta-hydrate in store bought bags.
you'd have to bake it first to get the anhydrous form. I can think of a bunch of better salts, regular table salt would be a LOT easier
Video Idea: Make a Mostly Printed CNC for improving your rocket engine Designs.
yes , awesome idea!
RS CNC 32 has a better design than MP CNC, take a look at it if you choose to go for DIY CNC.
He should talk to Ivan Miranda
i'm not sure a cnc would help at building a rocket...
i dont even know how i found this channel but its been helping me in my study of aerospace and aeronautical stuffs, nothing specific…
You could try making an HHO generator and blowtorch, I hear they can burn, cut and or melt almost anything!!!
um that would end up to be an explosion lol
16:28 i don't think it melt, when you heat steel to a certain temperature and add oxygene it start to burn. this effect is use to cut steel ( en.wikipedia.org/wiki/Oxy-fuel_welding_and_cutting ). i believe that some rocket nozzle are built in stainless steel and at my knowledge the process of cutting stainless steel like that isn't possible or at least isn't used.
We use plasma cutting tools at work to cut steel instead of tourch.
looked pretty molten to me tho with the blobs of liquid metal ;)
if you actually burned the steel you'd have a whole other load of issues.
the "certain temperature" for steel to burn (as with *every* material, since solids and liquids can't actually burn, only rust or smoulder) is *above* its melting point.
also, quoting the page you linked: "Pure oxygen, instead of air, is used to *increase the flame temperature* to allow localized *melting* of the workpiece material (e.g. steel) in a room environment."
Yep you're right you can start cutting steel with an acetylene torch, turn off the acetylene and leave the oxygen on and it'll just keep cutting.
The struts supporting the spike weren't very thick. It wouldn't be hard for the oxygen rich exhaust to erode them in seconds given the operating temperature.
Video Idea:
Now that you can 3D print metal, you should make a converging diverging nozzle out of metal, cooled via the blood of your enemy (tomato juice)
Glad I found this channel. Videos are very entertaining. Now I’m looking into buying a 3d printer.
Since 3D printing metal is difficult, you might try using lost wax casting. You're already using this to cast ceramics.
Create a ceramic mold which attaches, upside down, to the top of your ceramic cup. Fill the cup with small pieces of metal then attach the mold to the top. Put the whole thing in the kiln. When the metal is molten, take the whole assembly out of the kiln, flip it over so the metal flows into the mold, shake / slosh it to get the molten metal into all corners of the mold, then let it cool. You use your tongs to move it , and the mold is specifically made to cover the entire top of the cup so the molten metal is never visible and never likely to get splashed on you or anything else.
You're pretty clever; I'm betting you can figure out the rest.
I remember reading an article, some years ago, where an artist was actually doing this with an industrial microwave oven, not a kiln, to cast small, decorative metal pieces. His was specifically making his molds to completely cover the cup where he was melting the metal, such that all he had to do was take it out, flip it over, put it on a vibration table to get metal into corners and get bubbles out of the metal, then let it cool.
My buddy and I tried something like this a few tips , put a layer of the “sand” and pack it well with a wood stick as a tamp then place the part into it and pour a few centimeters of sand on and around it then use a sander to vibrate the sand down repeat this until the part is covered then use the sander again then tamp down the sand and place the carbon on top you can tamp it but we never noticed a difference, another tip you could maybe use a thermal paint or something like it to coat the part for better heat performance or possibly a form of plating would work
“Tough as nails” as in steel nails you hammer into wood, not fingernails. Hope this helps.
around me nails break before the wood does!
Nails bend...
Tough as screws is probably more apt.
Wire nails are actually designed to be pretty malleable and ductile. They are designed to mainly hold alignment for shearing forces. This is why home construction uses nails mostly in line with the forces (nails align the wood and bend as needed, but keep the surfaces aligned able to transfer load). Screws on the other hand are hardened, the screw (wedge) is taking a lot of tension, but are more brittle as a consequence of being heat hardened (they break easier under shearing loads). However old cut nails were a bit different, they could hardened or not.
@@LogicalNiko i wonder if work hardening plays a role there, really old nails were forged by hand, can imagine that depending on the type of steel they'd be quite a lot harder than modern wire nails.
@@connorlewis984 but don’t break easily
Bending is better than the material being rigid
Vielen Dank für das Video - ich habe mich selbst schon vor längerer Zeit für Metalldruck interessiert, habe es aber nie so wirklich in Angriff genommen. Darum war das für mich um so interessanter - Vielen Dank und weiter so - Ihre Videos sind einfach klasse
عفوا عندي سؤال ❔ ماهي المواد التي استخدمها في الطباعه
Dude this was awesome!!
Integza the jewelry casting process using pla instead of wax is also incredibly easy and best part is that with the right torch you can do steel parts in minutes instead of hours with no shrinkage and no pores.
Yeah this process has less steps, but that would result in a better part fir sure
Integza, you should try creating your own pulse jet engine using the metal printer or refine your turbo jet engine, or create an rc airplane with petersripol
Tomatoes are tasty
How much does a ticket from portugal to ohio costs?
You may be able to use charcoal or activated carbon instead of the sintering carbon. I use charcoal to stop the air from oxidizing copper when I do metal casting. Also, you could try their tungsten filament for the engine as it will have a much higher melting point though it will be much more expensive.
Thank you for making these videos!
love this guys work :)
Maybe you could reduce the effect of the warping on the bottom by adding extra material there (think raft) and then grinding it down to spec in post.
If this guy had a simple mini lathe, he could have it as flat as he needed it in no time.
@@nefariousyawn yes this would be the ideal way, but I'm betting he could use blue sharpie and a pair of calipers to mark where to trim it down to and then apply a disc sander in increasing grits he might already own?
3D print a Tomato Grenade (a self-destructing tomato). Rules: has the shape and colour of a tomato and explodes by firing the tomato stem.
That would be so awesome
Have you thought of possibly incorporating a second step with a ceramic cast over the part? I.E reshape the metal cast to accept/retain a ceramic cast on the areas exposed to high heat/erosion. I am a jet engine mechanic and alot of our hot section nozzle parts have thin ceramic coatings for heatand or erosion protection
you could try dipping the part in liquid cermamic (suspend a slurry) and then letting it fully melt and fill the part? In which case you might have to print some extra material above the part to account for the lost plastic
2030: How I 3D printed a planet to land on with my 3D Printed Rocket.
Idee for another video before 2030 ( =] ): Try to use some liquid or gas for fuel. That way you don't have to clean your chamber every time and you can run your thruster way longer and also don't use the fuel as a structural part to hold the nozzle to stop it from falling off.
That's another hell of an engineering Prosses liquid engines are another mountain of problems. Pressure gas flow valves injectors the system to actuate them and if he is using lox as oxidiser you need a cryogenic version for each. Ther is a reason why most amateur rockets are solid fuel it's just easier you put the fuel in the tube bam rocket.
@@stekra3159 i didn't consider that. maybe a solid engine with granulat is an optan. that way you are also able to input fuel into the system while it's running
@@drohnele3741 if you are going to use liquid or gas propellantyou must do calculations to make it flyable or safe. (except cold gas thrusters)
@@emrekermen5334 isn't it enough to once calculate the ratio and then just set your valves on what you calculated?
2030 is tomorrow.
With capitalism, time does not move.
I honestly love CZcams, and how insane it is. Every change is either met with "meh" or unbridled rage. The whole idea of letting anyone, anywhere, upload anything they want? Madness. Pure madness... But yet it flies!
Mostly false.
It used to be like that before Google bought CZcams.
Now, If you upload anything that critiques anything mainstream, or questions anything at all, your content gets both demonetised and channel removed if you "violate" their vague ToS.
"Upload anything they want."
Lol, that's a joke right?
@@h.cedric8157 if you don't care about google/CZcams ad money then demonization is irrelevant.
@@TruthIsTheNewHate84 you can, just do it within the rules.
@@spokehedz you don't get my point. How are they champions of "fReE sPeEcH" when they have the means to THROTTLE, and Shadow Ban, videos?
You might be too naïve to believe that Google's CZcams never will throttle anyone.
'h3te sPeEch' is still free speech, free speech is free speech.
Fools would only say otherwise.
And these fools are easily hurt by mere words and critiques.
Also imho CZcams should have never been sold to Google.
Unless you worked for Google, and know otherwise.
Metal clay may be fun for you to try. It's similar to this product. But it's one step using water and organic binders . Ruby is aluminum oxide so be careful of contamination. Any suspension always will shrink when the binders are burnt off.
I also want to do such things but All I can do is to support you because you have that what I can't even imagine here in this place. And keep it up bro🤜 ❤❤
16:16
POV: You just tried testing out the steel nozzle you just printed, but you accidentally opened a interdimensional portal to hell and started hearing the screams of the damned.
Hey! Love your videos! I hope someone remembers this, there were like 10 years ago some phone stickers that were flashing if there was an incoming call, soooo ... video idea: a 3d printed phone case with some nice, light bulb design so when someone gets a call the bulb on the case lights up :D
and also put a rocket on it
I fell in love with Tesla at the age of around 12. He and the wright brothers have been my idols. In growing up, I forgot my passions. Your passion for expirementation and Tesla have reignited my inventor passions
great idea for a video would be exploring printing some metal bearings and race surfaces Thank you for your content.
PeterSirpol: i made a plane
Tom Stanton: i build an electric bike
Integza: i made power...i need more
ididathing : i built spoon
@@naponnamchawat3536 with a spoon
Next you should make a Ramjet engine. (If you can) That would be so cool to see 3D printed!
I just recently found your videos, and they are awesome! Educational and funny, I loled many time throughout the clip.
Would you be able to make a theoretical background video? Or how did you got into all of that?
That would be amazing!
Keep on the great videos!
I've got an idea for a combination heat shield/rocket engine. Fiscripyion below
1) Central combustion chamber/s feeding a ring of nozzles that are oriented at 45° from the forward axis. The nozzles basically point in the opposite direction as normal.
2) The exhaust gases flow over an arched surface towards the perimeter. In profile the arch would only be one half of a full arch.
3) At the perimeter have a series of flaps that extend below the perimeter of the arched arched surface.
4) As the engine functions the gas flow across the surface increases pressure across the surface. The flaps at the outer edge cause gases to build up increasing the pressure at the edge. Think of the engine as being similiar to a blown wing on an aircraft.
In reality the engine could probably be tested with low temperature materials using steam or even water sprayed at high presdure across the surface. The idea isn't to achieve an engine capable of propelling the vehicle in the launch phase. But instead to have an engine that would use the same structure as the re-entry heat shield as it's working surface. This could be used in an orbital vehicle that re-entry tail first and lands vertically.
And while rocket engines work by ejecting a gas at high velocity and pressure that pressure is acting on the engine bell or aerospike surfaces as it expands to produce thrust.
Integza: “The best you can do with a commercial 3D printer is get parts out of plastic or resin.”
False. The best you can do with a commercial 3D printer is get parts out of chocolate.
That sounds like chocolate with extra steps
Now that you can 3D print metal reliably, I cant wait to see how many of your older projects you can revamp with better parts. In particular, if you could make metal turbine blades for your water rocket. As an added bonus, the (potential) shrapnel would be even more dangerous!
Okay had an idea. If your engine is overheating include changes in the parts that overheat to allow cold propellant gassed to flow through them, use the fuel to cool the structcure. early rockets had that system If I recall correctly. Create one central inlet, with small channels running in a coil inside the body of the combustion chamber and nozzle feeding back to the injection ports.
If you injecting fuel and oxidizer through those ports, it cools the shell ad preheats the gasses. as well as allowing you to create a tailored injection pattern for both fuel and oxidizer
I wonder if pulling a vacuum on the crucible before putting it in the kiln would work to make sure it's really well packed and there's no air pockets between the "sand" and the 3d printed piece
Use a stronger more heat-resistant metal to make an aerospike nozzle. Also, put cooling into it like a liquid cooling system. Then make a staged rocket using multiple engines, and see how far you get. That would be a sick vid/series.
That would be fire... hazard.
3D print a DC motor core out of the metal filament to improve the efficiency of a homemade electric motor.
Could you print a negative mould of the nozzle in ceramic, fill it with steel powder and sinter it directly (without the need to burn out the resin from the part)
This is awesome, next step add a coolant system. Most rocket nozzles are cooled with the propellant.
Integza, your rocket nozzle can save only one material: Tungsten
You chose my favorite rocket. Long live the Aerospike! Nicely done. I can’t believe how far this FDM tech has come.
You should try making a nozzle with hard wood, fire resistance is higher than regular steel!
Keep up the good work, your projects are amazing.
Kudos on the achievement of obtaining a solid metal part from 3D printing!
Suggestion: Flip it upside down such that the flat part is horizontal to the ground, but on top. This should result in less warp.
If your sintered product is significantly deformed, it's too much heat. If parts aren't sintered, it's too little heat and not enough time.
If you want very high temperature metal combined with near-zero corrosion, try Hastelloy.
Video idea:
Try making a magnetospike, they use magnets to guide the exhaust which gets rid of the melting problems
magnets fail in high temperatures
@@carpenterbeebuzz5461 you don't have the magnet exposed to said temperatures
It would be really cool if you could build exterior channels into the 3d printed nozzle to run nitrous oxide through. There's some pretty cool research around using supercritical nitrous oxide to cool aerospike nozzles.
This is the second video of yours I have watched. Something was bugging me after the first. Then it came to me. You remind me of the waiter in Faulty Towers. Well done with the exercise. Subscribed.
When packing the sand, use vibration to settle it into crevices better for a more thorough bake.