Introducing Phillips Additive Hybrid Powered by Haas
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- Опубликовано: 8 июн 2022
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Nice to see this type of stuff coming to the more mainstream market. Just like we are slowly starting to see more 5-axis 3d printing slowly making it into the hobby markets. Certainly opens the doors to faster prototyping and manufacturing solutions. Exciting!
Ahhh I love how the laser head retracts into it's home after doing it's business
@2:06 was good to see you today at Peak. I'm really excited about all the tech that's becoming more accessible.
Thank you, guys!
this is awesome, nice to see this come to the Haas world...and wire fed! very cool
my head just exploded. cool integration.
Absolutely awesome!
I’ll take three!
Daniel Machado - Brazil
This is incredible
Excellent
so the maschine has a protection atmosphere or you are able to print Titanium without?
I'd bet they're purging the work area with inert gas like a MIG gun.
bro, es wird "machine" geschrieben
I think similar to MIG welding it blows shielding gas over the area. It helps it is enclosed so drafts should not be much of an issue. Only the hot metal needs gas shielding. Once it has cooled somewhat it is fine.
@@MakeItWithCalvin ye without any sort of shilding gas i couldnt imagine how they do it ^^ but i wonder if the hole cabin needs to be in it or only local shielding gas is sufficient
Our shielding gas is Argon and is localized to deposition. We do not fill the machine enclosure with Argon. This keeps gas consumption low and Meltio’s gas nozzle keeps the melt pool and trailing areas inert.
Wow, really cool! I'm not familiar with metal 3d printing but last I looked into it, the parts required some sort of chemical wash and baking process. Do parts printed on this machine need any sort of post processing other than the machining or are they totally finished?
I'm not very familiar with 3D metal printing but this type looks more like welding than what you're referring to which uses powdered metal. The powdered metal get fused together and then it's off to an oven for sintering where the binder is melted off and the part shrinks. I think it's something like that
@@spazzywhitebelt thats exactly what this is. however the sintering is done by a laser.
@@spazzywhitebelt no worries, but you guys are actually confusing three technologies. The first technology is Selective Laser Sintering, where you have a powdered bed of metal that gets fused by lasers. this doesn't need any post processing besides cleaning of unused powder, which granted, can be a bit of a pain in my experience. The next technology, the one you're thinking about, is similar to FDM plastic printing, except the filament has metal powder in it. Once the part is printed, it's washed in a lye solution, and then the part is sintered in an oven. Last, there's this one, where metal wire is fed in to a puddle and fused to itself. this can be done a number of ways (some people just strap MIG welders to robotic arms) but lasers are much more elegant as they offer more control over how the material melts.
It would basically be done simple post process would be, Flip it into some soft jaws then machine off the build surface and then it would be finished.
@@zachbrown7272 lasers make a smaller puddle. cartesian kinematics give tighter movement control than a bot arm. so really, this is exactly that. a mig welder strapped to a robot hand. however its wire fed laser in a cartesian bot. typical VMC platform. Where a robot is lucky to hit accuracy in the tens of thousandths of an inch, a cartesian will easily move in the tenths of thousandths of an inch. its all about closing the envelope :)
The future is now
Interesting
That’s a remarkable name for a tech company😅.
Like a spell straight outta Hogwarts.
In short, no scrap parts.
This machine only can cut aluminum and volumetric error is about .002”
trumpWRONG.gif
Nah bro. Maybe if your don’t dial in those parts.
Since when? I saw a VF-2 equipped with this toolhead at SOUTHTEC in Greenville. They were printing a dual-metal crescent wrench, the bulk of which was softer steel, and the crescent contact area and box were more rigid tool steel. The idea was to reduce tool wear by only using more rigid material where necessary. The VF2 can maintain tolerances under a thou quite easily.
That’s not a cheap toy.
Ughhh that nosel position on UMC is wery bad
Yeah, considering how unreliable Haas machines have been in my experience over 13 years and 4 shops with them, I'm sure this will be just as unreliable as their umc series kinematics & everything in general have been 🙄
Unfortunately yep, for me Okuma every day. 🇦🇺🇦🇺🇦🇺
I've got 7 HAAS. They are no less reliable than any of my other machines
@@leensteed7861 I have been working close with Haas since 94. No way I'll be getting another one. Doosan all day. Fanuc is the king.
you can tell if someone is american by how great they think haas is... lmfao@@leensteed7861
always tells you what it can do doesn't tell you what it cant do... also that 3d print looking dog
HAAS for aviation technology, laughable
exactly... its not made to that standard at all.