This part is amazing. I know you have been working on it for some time now. This is some great toolpaths. We were never able to do the roughing that y’all are doing especially since we were limited by 6000 rpm. This is beautiful work.
This is miles more advanced compared to when I was a CNC programmer using Bridgeport EZ Mill 3 axis software. Very impressive work here. I'd love to see this part made from Titanium.
I mean, I know this is functional, which makes it even better, but this is pure art throughout I guess this is what standing on the shoulders of civilization feels like 'Give me tools and look at what I can achieve' (better than pr*n)
I know these have to be damn near perfect spec, and I also want to make sure to triple and quad check my tool program setups by multiple people. That aluminum and time is expensive and long. So making sure it's absolute on the first try is a must. This is sexy to watch.
You might not believe it but Honeywell in Torrance ca. still uses 1980's Bostomatic 5 axis cnc's to make some turbines made of high temp steels for airline APU's. The trunion has 2 chucks.
I'd like to know how many hours Barry spent working on the CAM for this part and how many hours of machine time it took in total.....I can't imagine how many lines of Gcode there must be...yikes.
Did you consider using a insert tool for the roughing operations? For example a 50mm 5-insert mill usually eats aluminium like crazy. Or is the KOR achieving higher MRR? Just curious, still a very cool part!
Can someone please explain the tool path type at the beginning of the video where utilizing the C axis with the spindle to maximize the SFM? Assuming the code was generated in Master CAM.
you fux are obviously the bom, but what are you? Are you a machine shop, making parts for industry? Are you making parts just to show it van be done on youtube? what?
This part is the most insanely beautiful part I have seen! Incredible work
It's close! But that 3D printed heat fluid mixer with cooling jacket and cut-out to showcase the internals takes the cake. It's a photo finish though!
This part is amazing. I know you have been working on it for some time now. This is some great toolpaths. We were never able to do the roughing that y’all are doing especially since we were limited by 6000 rpm. This is beautiful work.
That’s some damn good machining. Keep making it happen Berry. Great job.
That is awesome you can machine this parts. Impellers are very useful.
Mesmerizing Tool Paths! Can't wait for the next video!!
Wow! So impressive Barry! Volume up for sure 🎶. Kudos to the media/editors sheesh.
This is miles more advanced compared to when I was a CNC programmer using Bridgeport EZ Mill 3 axis software. Very impressive work here. I'd love to see this part made from Titanium.
I mean, I know this is functional, which makes it even better, but this is pure art throughout
I guess this is what standing on the shoulders of civilization feels like
'Give me tools and look at what I can achieve'
(better than pr*n)
I know these have to be damn near perfect spec, and I also want to make sure to triple and quad check my tool program setups by multiple people. That aluminum and time is expensive and long. So making sure it's absolute on the first try is a must. This is sexy to watch.
Wife: Honey what are you watching?
Me: Puts away phone quickly.
I machine many beautiful aluminum aircraft parts.
This takes my breath away!
You might not believe it but Honeywell in Torrance ca. still uses 1980's Bostomatic 5 axis cnc's to make some turbines made of high temp steels for airline APU's. The trunion has 2 chucks.
If the process works, probably easier to not try and fix it
Nice work Barry, top notch!
I love how this machine sounds like a dam T-Rex when it changes tools.
You should add a running comment in description about estimated part weight between stock - roughed and then finished
Impressive 😍 insane automation
CNC machining at its finest
damn i love helix and spiral tool paths ... sadly i can or rather im only allowed to program directly on the mill wich makes that a lot harder
Great job Barry. Did you find that cycle832 helped reduce the cycle time?
I'd like to know how many hours Barry spent working on the CAM for this part and how many hours of machine time it took in total.....I can't imagine how many lines of Gcode there must be...yikes.
Where is the video on how you programmed this?
Is aluminum the final material? Is this just to prove out the program?
How many hours did it take to machine this part?
Did you consider using a insert tool for the roughing operations? For example a 50mm 5-insert mill usually eats aluminium like crazy. Or is the KOR achieving higher MRR? Just curious, still a very cool part!
I’m sure they are well aware of the possibility but these videos are more for showcasing the machine and tools (KOR).
Is there gonna be a video on programing as well?
Can someone please explain the tool path type at the beginning of the video where utilizing the C axis with the spindle to maximize the SFM? Assuming the code was generated in Master CAM.
Beautiful 💙💙💙
Its really good how long it takes to complete this process
I would wager that it took a little while to complete this. A couple hours at least.
Absolute machine porn !
awesome!
Badass! 👍
How many kilos did you remove this operation?
What a programmer😮
Love the design but grob still has them beat
Not sure this will ever be boring. Wait was that a pun. 🤔
Boombastic
Impressive MRR
if the goal was chatter you got it
How would u have done it on a 5 axis ?
Bro thinks the sound the cutter makes when it cuts is chatter
@@vladimirruiz-sandoval4256 look at the finish bud
🤓
Bunch of chatter
you fux are obviously the bom, but what are you? Are you a machine shop, making parts for industry? Are you making parts just to show it van be done on youtube? what?