Good commercial 👍 The 2.5 sec part where it magically turns into metal somewhere else 👏 Some explanations on the sintering and prices for the materials and service would have been interesting but it would have also distracted from the magic...
Lol... I was kinda thinking the same thing.. Some spools of higher grade material can cost 200$.. And that's probably American, so let's say 300 for us Canadians. for probably about enough material to make a couple pots or pans.. Also, that's an ultimaker printer behind him.. This guy makes it sound like it can be used on ANY desktop printer, so now you're gonna have a lot of poor gullible fools wrecking their 200$ 3d printers with the spool that they may have wasted 300$ purchasing.. And those ultimaker printers are so expensive that they don't even dare to advertise the price; you have to message the company directly with your information so they can get back to you with a quote.. My guess is that 5000$ would be a generous estimate...
Here in Europe this 316L filament apparently costs around €450 for a 3kg spool For the sintering a furnace with a bit over 1250 C (2300 F) and either high pressure or negative pressure
Having the capability to do everything in house is appealing, but there is still a steep cost on the sinterring oven and the debinder (washer). Plus you may need to have the floor space, the power circuits for it. Maybe a lower cost oven is being developed, but just to prove the concept is already super impressive.
@@kevinyang8801 Think about this scenario: A customer asks for a quote for a complex part from a company that would machine this as its the equipment that they have. And also ask quote from a printing service which has the capability to sinter this. Which do you think could give better price if its just two of these parts that the client wants? Another scenario: A large company has been using this filament for longer than BASF has had this as a product to sell(i think they made it just for Essentium before). Im not sure what they do with it, but i know they use it and its a company with a lot of respect and worth a lot. If this was a poor choice for them to use this, they would not use it.
I think it's like 90% (or over) metal embedded in the filament, with binding polymers that holds everything together, which makes it easier to print. Hopefully when the price of the filament and the sintering service comes out being a lot cheaper than those online metal 3D printing services.
@@kevinyang8801 It shrinks a lot more than just 10%. The specification is over 80% metal so I expect 83 to 85%, which fits in with some other high metal content filaments. If they put too much metal in the polymer just can't hold together and it becomes brittle. There have been other manufacturers who ran into this issue.
This really needs to be cheaper than sending a part to be 3d printed on an SLS machine, if it really can't be machined. If I send an STL to shapeways to be printed in metal, I'll get a dimensionally accurate part. Here you are using an expensive consumable, sending it out for sintering, and hoping you got the dimensions right to get the part you expect. Hard enough to design with ABS shrinkage in mind, at least with that you can iterate immediately with very little penalty. A 16.5 % shrinkage is huge. I'm sure someone will try it - if they get comped a roll and sintering services, but I can't see paying for any production part. All examples I've seen can be manufactured better using subtractive methods.
If there was not so much difformation in that process, that would be a real advance for plastics matrix mold making and lower the cost for small production of plastic injection parts. But if we have to CNC those sintered parts to get them back to specs, what do we really gain BASF ?
the dimensional guesswork makes this very sketchy -- if I need a part to be a specific size, your best best is a lathe and a mill...I don't see how this rough shrinkage estimate works for production prototypes -- I get it back and it's .5 mm off spec, and I have to print it again, send it out ...etc...doesn't sound like the process is fully baked -- pun intended.
Are you sure its much more guesswork after you know how to calculate shrinkage and know the sinthering process well than guessing tolerances any other filament printing?
But in machine or mechanical parts, where you would mill multiple faces / edges anyway.. and it would be very helpful for personal projects if you live in a city apartment and can't set up sand casting for prototyping or limited run parts
I have an odd question: What is the density of the material before final processing of the part? I am looking to 3d print flywheels, and others that require weight, not so much durability.
Are BVOH soluble supports an option with this material? Can the binder handle rinsing with water and will the sintering support powder get under overhangs?
4:53 shouldn't the metal must be melted before print? so this is 250 degree celcius meanwhile for example aluminium melting point is 660 degree celcius. can someone explain
It's about 15-20% plastic binder and 80-85% metal POWDER. The plastic gets removed through the de-binding process and the metal powder is fused into a solid piece through the sintering process.
Why can't anyone combine this process with laser metal sintering, and basically extrude a layer, then blast it with a laser, extrude a layer, laser it, etc. Then it would be done right off the bed. You could even extrude some support structure, then only laser the bits to keep, and remove the green supports after its finished printing.
I don't want to send my parts off to a service. I want to debind/sinter them myself. If I wanted a service I would just order it to get cnc-ed, and it would be stronger and probably the same price or cheaper ($465 for a 3kg roll (no smaller size) + $50/1kg filament sent to their processing service). Now, I could overlook all of that, but if I'm 3D printing its because I want the parts NOW for a prototype and not being able to sinter it myself is a deal-breaker.
I am a self-employed landscaper entrepreneur I'm trying to learn how to fix all my own stuff and as I do that take it to the next level of even making my own parts. I believe I was told in short 3D printing makes things possible that we're not possible in the recent future. Interested in being able to make my own hydraulic gearboxes these seem to be the one thing that are very expensive on power equipment interested in making my own version of a Toro dingo designed for mulch not necessarily for concrete and having materials something that I can move across a customer's yard without destroying it has anybody made hydraulic gearboxes before
I know this video is kind of old and still great info but what would a minimum size nozzle for this type of filament be? 0.4 maybe smaller? I am very curious and want to get into this, very strong rc car parts coming soon!!
Why don't the facility that sintering the part get a 3D printer farm and you just send them your 3D file and they print it and sinter it? Instead of you shipping your green part. All for a fee of course.
If you have to send it away and wait for it to come back magically transformed into metal, you may as well just buy the part and not bother with printing. Let me know when you can do all of this from home cost effectively.
very cool and super exciting!! another company makes a similar product and doesn't use debinding. I wonder what would happen if you sintered without it? I have a kiln but the $465 price tag for filament and the $50 debinding and sintering cost is still a little steep.
no discussion on cost for the filament and the conversion to a metal part? isn't this the whole point - that it's less expensive than traditional CNC milling?
At this point it looks like it makes much more sense to just have a 3d print service print it with a laser sintering printer. Probably way more accurate and prices aren’t that high anymore.
So you buy this expensive impregnated filament, then you send the finished part back to the company who manufactured the expensive filament for further processing to a finished product. No word on how much it costs to sinter it, but it's snot going to be free. In fact they got you buy the ball-z-axis. They can charge whatever they like. Why don't you just send your drawing over to be printed by a real 3d printer. Seems like it would be faster and most likely stronger. No funky scaling, or part mishap sad stories. Either they can make it or they can't.
I'm a bit late here but Virtual Foundry has much filament that is pretty much exactly the same and has a guide on how to do it at home with your own kiln.
So you're telling me we still cant print metal parts on our own? We still need the company to finish the process so i think its just a waste unless its extremely cheap
Design for 3D printing, but you can't do this, this, this or that, or that thing or size you would do in 3d printing. Oh, and wait, you get to pay for the inconvenience of sending it out waiting for it to be processed, waiting for it to be sent back and see if it actually is in the dimensions you needed.
At first I wasn't sure if this was a 3D Tech or Aerobics video : ) Just kidding. Product seems potentially useful but posting models back & forth, plus spool cost which will no doubt be X 3times other metal filled PLA, doesn't appeal, but I'd like to see Stefan from CNC Kitchen do strength tests as he's vigilant & thorough.
What a disappointing product and misleading video title - I expected to be able to print an object at home in metal, not something to be sent off to be turned into a metal part.
@Rogue Mentality even if matter hackers sales guy says that people at home can print it, it doesent mean that the product is aimed at these people. This is aimed mostly for industrial use etc. but because the sintering service is not just for industrial customers, people printing at home can also use it and these are a big part of the audience that matter hackers wants to reach with this video. By the way, the sintering service was quite a bit cheaper that i thought it would be. Definitely cheap enough if you are willing to pay that much for the material itself, but it does cost. Im not sure if prices vary from place to place or if they are final prices, so i rather not say the number i have. Price of this material will surely scare those away who are not willing to invest for the prints they would make from this material.
too much headache by the looks of it, would be worth it if the whole cycle is at home, but since after all the finishing you have to send it out, then whats the point, you can get the whole thing outsourced
Sounds like it's cheaper to send a file to a laser metal printer company than buying this stuff and sending it away to pay even extra for that proces and you don't need this cleanup part even. 🤔
$465 and $50 per processed part. $515 minimum price.. Not exactly cheap and not for the average Joe.. if the prices come down enough for folks to use quickly enough, maybe it won't be just another fly-by-night product alike to 3D TV's that needed glasses that no one would wear, even though they do in the cinema. That technology too went out the window..
This is a joke.... the price of the filament alone... plus sending it In for another cost..... than saying hey, instead of cnc your parts do this... but your know what? You still may need to cnc these 3d printed metal parts..... this is all bs.... let me know when there's a better method... or when all the processes can be easily done in house... thanks!
being made to follow some one elses rules in what you can make is not awesome! the other besides is no privacy and stolen designs, etc you can tell by the fact they will renaming the process of heating it in a furnace to calling it Sintering instead what is the debinding also heating till most the plastic binders flow out??? perhaps under vacuum either way shiesty sounding to me at min Greedy while still controlling Tec
Do you have ants in your paints? Outrages filament and sintering cost, way too much to go wrong. This video has more holes of information that then a 3d filament sintered part.
If this guy would stop dancing around as he talked it would be a lot less annoying.. But not as annoying as the critical items that were only glossed over. THis is pretty pricy for a process that no one knows the full cost.
Good commercial 👍
The 2.5 sec part where it magically turns into metal somewhere else 👏
Some explanations on the sintering and prices for the materials and service would have been interesting but it would have also distracted from the magic...
Lol... I was kinda thinking the same thing.. Some spools of higher grade material can cost 200$.. And that's probably American, so let's say 300 for us Canadians. for probably about enough material to make a couple pots or pans.. Also, that's an ultimaker printer behind him.. This guy makes it sound like it can be used on ANY desktop printer, so now you're gonna have a lot of poor gullible fools wrecking their 200$ 3d printers with the spool that they may have wasted 300$ purchasing.. And those ultimaker printers are so expensive that they don't even dare to advertise the price; you have to message the company directly with your information so they can get back to you with a quote.. My guess is that 5000$ would be a generous estimate...
where is this part, i couldnt be bothered to watch the whole thing again
Here in Europe this 316L filament apparently costs around €450 for a 3kg spool
For the sintering a furnace with a bit over 1250 C (2300 F) and either high pressure or negative pressure
@@sizlax the new model is 10 k😂
@@Stormingviking Ouch... I hope they make them actually affordable in my lifetime..
Whats the finishing process like and why I can't do it myself? just asking
Sounds expensive at all stages. I want a filament that can be sintered at home in a kiln.
Having the capability to do everything in house is appealing, but there is still a steep cost on the sinterring oven and the debinder (washer). Plus you may need to have the floor space, the power circuits for it. Maybe a lower cost oven is being developed, but just to prove the concept is already super impressive.
jesondag expensive compared to what?
Sure is, but it could be cheap for prototyping or low production volumes compared to machining where fixed costs work against low volume.
@@kevinyang8801 Think about this scenario: A customer asks for a quote for a complex part from a company that would machine this as its the equipment that they have. And also ask quote from a printing service which has the capability to sinter this. Which do you think could give better price if its just two of these parts that the client wants?
Another scenario: A large company has been using this filament for longer than BASF has had this as a product to sell(i think they made it just for Essentium before). Im not sure what they do with it, but i know they use it and its a company with a lot of respect and worth a lot. If this was a poor choice for them to use this, they would not use it.
At first they will say some things just can’t be done at home and we will just keep proving them wrong.😎
I'm confused. you just print in plastic. send it back to get it in metal? why not just give them the STL in the first place?
I think it's like 90% (or over) metal embedded in the filament, with binding polymers that holds everything together, which makes it easier to print. Hopefully when the price of the filament and the sintering service comes out being a lot cheaper than those online metal 3D printing services.
@@kevinyang8801 It shrinks a lot more than just 10%. The specification is over 80% metal so I expect 83 to 85%, which fits in with some other high metal content filaments.
If they put too much metal in the polymer just can't hold together and it becomes brittle. There have been other manufacturers who ran into this issue.
Chloe Mcholoe its because they want YOU to take the responsibility of the shrinkage error.
You can. It will just cost 7 times as much if someone else prints it.
7:00 ... You just wasted 7 minutes
This really needs to be cheaper than sending a part to be 3d printed on an SLS machine, if it really can't be machined. If I send an STL to shapeways to be printed in metal, I'll get a dimensionally accurate part. Here you are using an expensive consumable, sending it out for sintering, and hoping you got the dimensions right to get the part you expect. Hard enough to design with ABS shrinkage in mind, at least with that you can iterate immediately with very little penalty. A 16.5 % shrinkage is huge. I'm sure someone will try it - if they get comped a roll and sintering services, but I can't see paying for any production part. All examples I've seen can be manufactured better using subtractive methods.
If there was not so much difformation in that process, that would be a real advance for plastics matrix mold making and lower the cost for small production of plastic injection parts.
But if we have to CNC those sintered parts to get them back to specs, what do we really gain BASF ?
you can do loss PLA casting process. but to cast 316L i would image you would need an argon atmosphere and an electric furnace.
This just motivates me to make a kiln to experiment.
and a debinder XD
the dimensional guesswork makes this very sketchy -- if I need a part to be a specific size, your best best is a lathe and a mill...I don't see how this rough shrinkage estimate works for production prototypes -- I get it back and it's .5 mm off spec, and I have to print it again, send it out ...etc...doesn't sound like the process is fully baked -- pun intended.
Are you sure its much more guesswork after you know how to calculate shrinkage and know the sinthering process well than guessing tolerances any other filament printing?
It's common to have critical dimensions machined after casting, forging or sintering. This would be the same.
But in machine or mechanical parts, where you would mill multiple faces / edges anyway.. and it would be very helpful for personal projects if you live in a city apartment and can't set up sand casting for prototyping or limited run parts
All MIM parts are shrunk.
I'm curious to see how pricing after processing compares to peek/pei filament.
While being sort of cool whats the point if you need to ship it forth and back if you can order it cnc machined probably faster?
Did you mean to say 100 mm^3 for build volume? That is a cube with less than 5mm sides. That is tiny.
No, its 100x100x100mm. Maybe later they will allow bigger things.
Whats the tensile and shear yield stress after sintering?
Why not provide kiln temp and time information? I'm about to attend a university that has ceramic and metal working kilns.
Because it needs debinding.
@@rsilvers129 debinding? What's that, besides a way to say "expensive service"
so what are you guys gonna charge $100 for half a kilogram?
thats not bad considering PEEK is 100 dollars for 100g
Rogue Mentality that's for 3 kilograms
@@owencoyne6223 Probably just due to the density of the metal
Wow! This could not have come at a better time. I can't wait to get started. Thanks brother."
This is literally insane! Living in the future.
Good info. Thanks for dressing up for the video.
I have an odd question:
What is the density of the material before final processing of the part? I am looking to 3d print flywheels, and others that require weight, not so much durability.
You can weld to that too.
I've done it. Welds fine.
This is amazing! But where/how to get it sintered?
Any idea when this product will be available? Filament and sintering costs?
Sounds interresting, but I would not be able to finish it myself and the shrinkage is pretty big. So still nothing for home use.
So would this filament work on a Glock slide....a slide that WILL NOT BREAK??
what is the temperature and (aprx) time for sintering ? or removal of the polymer.
Which printer is best suitable for metal printing
How does this differ from the other metal filled filaments? I mean I know normally it's whay 20% less or whatever but is this all metal?
What makes this better than lost PLA casting?
It's stainless steel, not aluminum or bronze.
Would be really cool to compare the strength and durability with metal plated parts.
Are BVOH soluble supports an option with this material? Can the binder handle rinsing with water and will the sintering support powder get under overhangs?
Are there plans for other metals such as aluminum, brass, bronze, copper, and various alloys?
4:53 shouldn't the metal must be melted before print? so this is 250 degree celcius meanwhile for example aluminium melting point is 660 degree celcius. can someone explain
No, the metal is melted inside an oven with 1200°C after 3d printing the part.
It's about 15-20% plastic binder and 80-85% metal POWDER. The plastic gets removed through the de-binding process and the metal powder is fused into a solid piece through the sintering process.
Why can't anyone combine this process with laser metal sintering, and basically extrude a layer, then blast it with a laser, extrude a layer, laser it, etc. Then it would be done right off the bed.
You could even extrude some support structure, then only laser the bits to keep, and remove the green supports after its finished printing.
I don't want to send my parts off to a service. I want to debind/sinter them myself. If I wanted a service I would just order it to get cnc-ed, and it would be stronger and probably the same price or cheaper ($465 for a 3kg roll (no smaller size) + $50/1kg filament sent to their processing service). Now, I could overlook all of that, but if I'm 3D printing its because I want the parts NOW for a prototype and not being able to sinter it myself is a deal-breaker.
Processing is included and it's $129 per Kg.
@@rsilvers129 read the fine print and current prices from matterhackers, way back machine me bitch idfk that was 6mon ago
Cost to debind and sinter please
I am a self-employed landscaper entrepreneur I'm trying to learn how to fix all my own stuff and as I do that take it to the next level of even making my own parts. I believe I was told in short 3D printing makes things possible that we're not possible in the recent future. Interested in being able to make my own hydraulic gearboxes these seem to be the one thing that are very expensive on power equipment interested in making my own version of a Toro dingo designed for mulch not necessarily for concrete and having materials something that I can move across a customer's yard without destroying it has anybody made hydraulic gearboxes before
What's the melting point
Now we just need to figure out how to do this 100% at home without having to send the parts out.
I know this video is kind of old and still great info but what would a minimum size nozzle for this type of filament be? 0.4 maybe smaller? I am very curious and want to get into this, very strong rc car parts coming soon!!
Do it need to print supporting fill-in in large degree?
is an enclosure for 17-4 printing recommended? (using a crealitiy 10s Pro V2)
what about strenght the most important factor ?
Wow interesting
But a two step process?
And what are they do in this process station?
They wash the parts, Burn off the binders, and bring the metal particles to a glass transition point where it becomes more solid
Can this be used in a direct drive cr-10s with an all metal hot end?
Did you guys printed with Sigmax or just with the Ultimaker? I'm worried about the 100 C (Sigmax max bed temperature).
Thought on using a high temp Olson ruby nozzle?
..Do you got the Natural Auto tuned voice or is this a voice effect done on the software. ;p Nice presentation sir.
I mean at this point just make a mold and fill with aluminum or something lol
Why don't the facility that sintering the part get a 3D printer farm and you just send them your 3D file and they print it and sinter it? Instead of you shipping your green part.
All for a fee of course.
shelly belly shrinkage and part preparation is up to you... so I guess if it comes out messed up - *its your fault*
@@TheSickness most of the shrinkage comes from the sintering process, and the part preparation will be a service as well.
What happens when the thing that comes back loses some size?
If you have to send it away and wait for it to come back magically transformed into metal, you may as well just buy the part and not bother with printing. Let me know when you can do all of this from home cost effectively.
very cool and super exciting!!
another company makes a similar product and doesn't use debinding. I wonder what would happen if you sintered without it?
I have a kiln but the $465 price tag for filament and the $50 debinding and sintering cost is still a little steep.
It's $129, and that includes sintering of the entire 1Kg and return shipping. Your kiln won't debind.
no discussion on cost for the filament and the conversion to a metal part? isn't this the whole point - that it's less expensive than traditional CNC milling?
$129 PER Kg including sintering.
At this point it looks like it makes much more sense to just have a 3d print service print it with a laser sintering printer. Probably way more accurate and prices aren’t that high anymore.
You are real, actual metal!
So you buy this expensive impregnated filament, then you send the finished part back to the company who manufactured the expensive filament for further processing to a finished product. No word on how much it costs to sinter it, but it's snot going to be free. In fact they got you buy the ball-z-axis. They can charge whatever they like. Why don't you just send your drawing over to be printed by a real 3d printer. Seems like it would be faster and most likely stronger. No funky scaling, or part mishap sad stories. Either they can make it or they can't.
Can we sinter ourselves?
That's the 1 million dollars question, no one knows yet.
I'm a bit late here but Virtual Foundry has much filament that is pretty much exactly the same and has a guide on how to do it at home with your own kiln.
True but it is $50 more per Kg and doesn't include the sintering like the BASF does.
@@rsilvers129 How do you go about sintering? Is it just as easy as putting it in a gas powered furnace
Did they actually design apart with all these limitations and print it and see if cost-effective over CNCing the part?
It's the industrial revolution all over again. Too bad they cant make a metal part maker that sits on your desk.
So you're telling me we still cant print metal parts on our own? We still need the company to finish the process so i think its just a waste unless its extremely cheap
Stefan, I hope you put it in cart already
Design for 3D printing, but you can't do this, this, this or that, or that thing or size you would do in 3d printing. Oh, and wait, you get to pay for the inconvenience of sending it out waiting for it to be processed, waiting for it to be sent back and see if it actually is in the dimensions you needed.
You obviously weren't at the coke party where this idea was birthed...or you would understand. You sorta had to be there.
At first I wasn't sure if this was a 3D Tech or Aerobics video : ) Just kidding. Product seems potentially useful but posting models back & forth, plus spool cost which will no doubt be X 3times other metal filled PLA, doesn't appeal, but I'd like to see Stefan from CNC Kitchen do strength tests as he's vigilant & thorough.
Best shot at getting 3d printed metal is actually printing pla and metal casting lost pla style
Hadi CG im sure polycast works better than pla. Casting has its own problems, this has its own and they both have their uses
Weird that he makes the exact same parts that BASF shows on their brochure. I haven't seen a part designed by someone else yet.
Not clear that he made the parts at all. Maybe was sent them.
lol dude, 100 mm³ is a tenth of a milliliter. Are you sure, you calculated that correctly?
Right. It would probably have to be written as (100mm)³ to be correct. But the way it is, is really 100 cubic millimetres.
can't wait
Looks like i found a use for the kilns i inherited
Yadda, yadda, .....skip to 2:30
What a disappointing product and misleading video title - I expected to be able to print an object at home in metal, not something to be sent off to be turned into a metal part.
Matt Kasdorf i dont think this product is meant for people who print at home as a hobby
@Rogue Mentality even if matter hackers sales guy says that people at home can print it, it doesent mean that the product is aimed at these people. This is aimed mostly for industrial use etc. but because the sintering service is not just for industrial customers, people printing at home can also use it and these are a big part of the audience that matter hackers wants to reach with this video.
By the way, the sintering service was quite a bit cheaper that i thought it would be. Definitely cheap enough if you are willing to pay that much for the material itself, but it does cost. Im not sure if prices vary from place to place or if they are final prices, so i rather not say the number i have. Price of this material will surely scare those away who are not willing to invest for the prints they would make from this material.
Wooooaaaa! I have to try this!!! :0 😍😍😍
what's up with the audio of this video
How is this a faster solution than traditional CNC methods??!?
CNCing parts at home can easily be $20,000 for the machine and then takes loads of skill.
Pretty cool, but that price though. $465 for the filament and $50 for each processing ticket.
the sound is shaky
Not all that friendly if you still have to send it out.
too much headache by the looks of it, would be worth it if the whole cycle is at home, but since after all the finishing you have to send it out, then whats the point, you can get the whole thing outsourced
$465 a spool😩 Why dey do dis?👀?
Whatever you do just don't get in the kiln. Get out of the kiln
Sounds like it's cheaper to send a file to a laser metal printer company than buying this stuff and sending it away to pay even extra for that proces and you don't need this cleanup part even. 🤔
No, that would be 7x as much.
Just buy a fucking cnc mill 🤦♂️
Is this guy wearing moon shoes?
Imagine having a big enough printer to make a full on Mandalorian helmet and see that shine
smh you know your shits expensive when you have "Get A Quote" for the price of the product. Its just a roll, why would someone need a quote. sigh
A 465 dollar filament spool is far from affordable!
But it is fine for buissness
$465 and $50 per processed part. $515 minimum price..
Not exactly cheap and not for the average Joe.. if the prices come down enough for folks to use quickly enough, maybe it won't be just another fly-by-night product alike to 3D TV's that needed glasses that no one would wear, even though they do in the cinema. That technology too went out the window..
Min price is $129.
oof that audio render
Why would you want nanoparticles of metal filament floating around your home? This stuff is not healthy.
This is a joke.... the price of the filament alone... plus sending it In for another cost..... than saying hey, instead of cnc your parts do this... but your know what? You still may need to cnc these 3d printed metal parts..... this is all bs.... let me know when there's a better method... or when all the processes can be easily done in house... thanks!
being made to follow some one elses rules in what you can make is not awesome! the other besides is no privacy and stolen designs, etc you can tell by the fact they will renaming the process of heating it in a furnace to calling it Sintering instead what is the debinding also heating till most the plastic binders flow out??? perhaps under vacuum either way shiesty sounding to me at min Greedy while still controlling Tec
Lost me
The bloody music drove me to quit in less than a minute
as i lay dying
Wtf is this process hes talking about
Waited for 2 minutes for print temperature, nuzzle requirements and filament price. Didn't get them, enough of advertising, Goodbye.
nope.
Do you have ants in your paints? Outrages filament and sintering cost, way too much to go wrong. This video has more holes of information that then a 3d filament sintered part.
way to expensive ill save cash going to the machine shop
i cant find any use case where someone would need this. hahaha. so random expensive crap.
STOP DANCING IN MY SCREEN!!
If this guy would stop dancing around as he talked it would be a lot less annoying.. But not as annoying as the critical items that were only glossed over. THis is pretty pricy for a process that no one knows the full cost.