INCREDIBLE 9-Axis CNC Machining Process in Stainless
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- เผยแพร่เมื่อ 20 ต.ค. 2024
- Masterful CNC Machining process explained. CNC Machining on the DN SOLUTION SMX 2100 ST to make the TITAN 810 out of 304 Stainless Steel.
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I really appreciate how this guy speaks to us like a normal guy and doesn’t exaggerate or try and make things sound all “EXTREME!”. Some of the other personalities on this channel are waaaay too over the top
Point taken… and I am glad everyone loves my son and his technique. SpaceX used to call me with 1 week deadlines and say, we don’t trust anyone except Tyson.
As for the personalities…
That’s what it is…
All videos are different, from different personalities…
But if you look at our analytics, people love that.
Barry is funny but he is a 4th generation machinist that makes incredible parts. Jessie is also funny but he has some of the best 5 axis programs on the internet and is teaching our kids.
All my guys are different and all videos are different… and the kids also love it.
Behind the scenes we have 450,000 current students learning machining on our free academies.
I celebrate our differences…
So does TH-cam.
That’s why we are so popular.
But like anything…
We will keep maturing and getting better.
Thanks for the comment.
Titan
M10 x 1.5 coarse thread ❌
M10 x 1.5 EXTREME THREAD ✅
Thank you ☺️
So true!! Love the channel but sometimes its so cringey i stop watching bc it just seems so fake and like a old sham-wow commercial lol
@@TysonGilroy your videos are always thoughtful and calm and that’s something I can get behind 110% keep up the awesome videos :)
Love Tysons videos. Explains everything well. Keep up the awesome work Tyson!
more Tyson ! his videos are the best
Glad to see Tyson on video. Nicely described, I understand everything so simply. Nice job guys, nice job!
As someone who started learning on 2 axis Doosan lathes and forced themselves to learn how to setup, run, and now program a HAAS DS-30SSY, Tyson's vids are #1 on the channel hands down. It's hard to explain but it seems like Tyson found a great balance of speaking in a way to let feeds & speeds sink in while also letting people listen to the cuts, which I think helps people find the feeds & speeds that work best for their machines/inserts. Sure I learn some things from others but from the 2-3 years I've been watching, nobody else has pushed my knowledge farther and relit the need to make everything more efficient (although Titan has gotten me obsessed with checking my chips as they come out the conveyor 😆).
Awesome work, true you keep the explanations to easier level to understand, I run CNC machines that are very old and only 3 axis machines and we don't even come close to their capabilities just programmed sequences for the parts we supply to Cat, I still love to operate it, nothing like what your shop does as your dad says we need to bring manufacturing back to the USA and Canada, our youth have almost zero knowledge about CNC compared to most other countries that i have traveled to in Europe fantastic video, you guys made the education free 💯 I'm 64 and love CNC
My area of expertise is nowhere near CNC (well, perhaps very remotely related, as I'm in IT) but I find CNC to be so incredibly fascinating. Especially the more technical videos I love to watch. Sometimes I wonder whether I've chosen the wrong profession but then again, IT is also my passion. I wish a human life lasted long enough to be able to become an expert in multiple, unrelated fields but alas that's not possible as most of us (perhaps including me, though I'm trying) won't reach true mastery in one single field even, let alone multiple. Such a shame, because I think this is another field in which I could completely lose myself and lose track of time trying to learn as much as I can as fast as I can. Profoundly interesting, this
Also, unrelated, Tyson is a gifted teacher. I love the way he explains these topics in a straight-to-the-point yet easily approachable and methodical way. These are the kinds of Titans of CNC videos I like the most
Start playing with our free academy.titansofcnc.com start with the building blocks and read the instructions
Super , explained perfectly.. Thanks for not making stupid jokes, or acting like cliwn.. Straight to target, no wasting time …
I am amazed that the part can be machined hanging out that far from the chuck without a tail stock. No chatter.
I was thinking the same.
Material and thickness of the part. If it was 1" in diameter with that much stick out, I'm sure some things would change like the ID hole being drilled after he did all the milling and/or he'd rough the front of the ball and not the rear for more rigidity.
I haven't made this part but had to make something very similar in 1.25" dia aluminum and you'd be amazed what is possible when you try some of the "what if I do" thoughts.
He started out with 4" material
Great video Tyson, very informative and amazing machine
Nice Psychedelic Trance in the background :D
slow is smooth, smooth is fast, thats my motto when i program parts in inox and this guy gets it
Good work Tyson 👏
Excellent work man
I want a CNC machine so badly.
Nice!
Tyson always explains every single step and why he does what he does.. very detailed information! Incredible job Tyson! 🦾💪
nice demo...
Good job
Best machinists
Fair bit of chatter there on the drilling and the finish milling of the pocket. Nice vid as always
4:00 you mention turning and angle your tool differently for the backside of the radius, why not angle the roughting tool for the same work?
I'm guessing here, but 304 stainless steel is tough to machine due to work-hardening and high cutting forces. It requires a cautious approach to avoid tool wear, heat, and deformation, so maintaining tool rigidity is key.
That’s probably why Tyson uses a more rigid tool orientation for roughing. For finishing, with lighter cuts, he can change the tool angle to improve the surface finish without worrying about deflection or heat.
Just a guess-I'm nowhere near Tyson’s level!"
That is the reason. We machine a lot of 455 and 465 Cromed cobalt. Medical instruments and implants. 304 is like cutting warm butter compared to some materials we machine. Love 17-4 stainless.
@@timothykraft7125Yep, that’s exactly it. I did take a look at it with the rougher and it would still leave a little bit of material even at different angles too, so it wasn’t worth it to me to sacrifice that
So you can design and machine a part just using solid works?
Because my workplace uses mastercam what are the differences and why do they use mastercam instead of solidworks
انه الفن😊
Could this have been done with MasterCam, and what would be some key differences?
This is Mastercam
just mastercam under solidworks
@@TITANSofCNC Okay, could Fusion360 have done this part and created the appropriate tool pathways?
THE BEST 💪🏾
Hayat insanazor
@@atakancetin1218 life is zor bana
you'd actually get much more consistent threads if you use an AFR calculator, chip load is always given in linear motion, not arc feed rate
сколько такой станок может стоить?
Ah the classic 0.9 rad go drill. Lol typo in the tool description 😂
8:44 uh oh, editor forgot to change the tool name. whoops!
Just for interests sake .how come you didn't drill the central hole in the original materials mass and at its most rigid ,rather than removing stock before drilling .not a criticism , I'm sure that there must be a reasoning behind it .
I was thinking about the exact same thing :)
My best guess would be the purpose behind that piece cannot be that accurate so for simplicity purposes they just didn’t do that step especially if the machine is able to hold on to that mass with no issues.
I'm not 100℅ sure I'm on the same page as you but my guess would be that drilling the side hole first would make all of the turning operations after an interrupted cut which especially in 304 would not be a good thing.
That and it would no longer be balanced
I've seen batches of billets where the length varies by a few mm and because of a worn blade they don't actually have faces that are perpendicular relative to the outside diameter. Good practice to establish a datum face that has no high points that may deflect the drill causing radial runout of the hole to be out of spec at the bottom, not the sort of drill i would want to put a peck drilling cycle in. Another reason is if you drill it first then you have to compensate for the varying length of the billet and adjust you drilling start position out a few extra mm so that's extra time wasted cutting fresh air.
Guys. No matter what the marketing hype is there are still only 6 axis x,y,z, rotation about x (A), rotation about y (B) and rotation about z (C). Sorry guys laws of physics still apply. You could introduce time but that only moves in one direction. So how many frames of reference does the machine have. And how are they added to the machine.
Show us what would you do if you don't have 3d printer...something more realistic on that situacion...to finish it...
Your "Solidworks" looks weird 🤔
It's designed in SW. He never said he programmed it in SW?
@@Mokkisjeva
It's weird that he would need to bring it into Solidworks then, if it was there to begin with
@@PaulG.369 0:33 Designed in Solidworks, 1:16 Programmed in Mastercam
You only need a few degrees of clearance on the backside of the tool, that's why it's set for 3 degrees. You didn't show the rest of the toolpath where MasterCrap cannot automatically enter or exit the cut in Mill-Turn. It's a glitch that makes using 3D tools useless.
2025 version is completely broken because it cannot color loop through toolpaths so you can't even see what stock is being removed. Absolutely garbage software.
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