I Raced a $600,000 CNC Machine

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We here at Formula Kentucky would like to thank Brandon and Machine Time for machining our uprights this year. They do amazing work and their generosity helps us more than they can imagine. Generous people in the community are what allows us to succeed and we couldn’t be more appreciative.

As a member of an FSAE Team from Germany myself I have to thank you so much for doing this. Without people like you our cars would be nothing but a 3D model and a dream. Really appreciate the work you do. Take care

Everyone needs to pause at 6:25 to appreciate this Calendar. It's hard to pick a favorite between "Book Sniffing" and the recurring "Pretend To Be Napping". 😂

I think the real lesson here is the importance of networking and maintaining relationships. Great work on all counts.

Stunning level of manual machining.

I'm recovering from a stroke right now, and can't get out in my shop. Your videos are keeping me sane, and helping me imagine getting back to work. Thank you!

I can't imagine the level of concentration you have to maintain over 23 machining hours, knowing that the slightest error could junk this part.
You have my highest appreciation of the machinists art!

"Spreadshirt", "Adhesive Portal", "Yoga with Zebras", "Water the Driveway", "Clown Shoe Fitting" LMAO
But somehow the funniest of all of these is "Chamfer the Pillow"

I am part of a Serbian FS team, and we JUST finished our upright, and this video drops, insane. Thanks for a great video!

It really blows my mind what complex geometry you are able to create with manual machines! We never did anything remotely complex in machineshop classes, really wish we did

99% of the time I have no idea what you are talking about as I have never touched a lathe but I love watching your videos. Your sense of humour and your attention to detail are brilliant.

Outstanding work

I'm getting cold sweats remembering trying to mill an FSAE upright on an ancient Emco F1 CNC training mill using a Windows 95 version of MasterCAM and drip feeding it over RS232. We quickly gave up and cut them from foam for an investment casting, which also didn't work. I ended up welding them up from steel tubing.

Member of BYU FSAE here! This is our first year back in the competition since a win in 2012, and fully electric this year! CNC uprights are our last part needed for suspension

26:18 I like the sticker "DO NOT" :D

A great video and a good looking result. This shows exactly why manual milling tends to be used for one-off parts, but CNC rapidly pays off as soon as you add repeats. Which is good because with the cost of CNC machines, tooling and software, you need to be running through a lot of production to start getting your money back.

Cal Poly Racing Baja SAE member here. I had no idea it was even possible to do parts like that on manual. I especially appreciated the explanation of climb vs conventional milling. Great video!

Thank you for your time that you donated to that cause. As a machinist of 34 years, I must say I truly enjoy watching your content and honestly have picked up a few good ideas. The saying never to old or proud to learn. If you think you are then it's time to give it up. Thanks for all you do my friend. Prayers and thoughts.

Just gonna lay this here and see if it gets picked up. For the rotary table and maybe even the corner rounder...
Rotary DRO.
Good stuff, nice to see something that looks like it was CNC'd come off the manual machines. Crazy nice

I immediately recognized the finished part in the thumbnail, as I was the one for two years to design this exact piece for my team's racecars! All of those are only driving around, because many generous sponsors manufactured A LOT. Greetings from Germany!

Dude, your videos are such a perfect mix of informative, tutorial, satisfaction, comedy, and humility. Love your stuff, thank you for making it!

I gotta say.... The "bounce" as you are 'holding your parts' absolutely killed me. :D

I'm a cnc mill guy and I love watching the manual machining channels. I learn alot of different ways to process parts. I recently found your channel. I am definitely a fan.

I too, participated in FSAE, albeit the hybrid version. I can remember knocking those parts out, working to optimize each component of the vehicle, one of the most amazing experiences I've ever had! Thanks for sharing this with us!

That macbook open was unreasonably harsh for a device made by a company that prohibits repair ☝️🤓

What a wonderful treat to wake up to! Awesome video concept, great execution as always.

As a civil engineer, I get a lot of pleasure in your problem solving. Having the ability to break things down to first principles (and I am reluctant to say) you are geared for engineering. Well done Logistics is always the root cause or the compounding factor to solve any issue.

This was a good one!
I started an apprenticeship as a CNC op about a year ago, pretty much thanks to you!
Fun to see that you can still compete on the one-off parts!Cant wait to build up a garage workshop :)

As someone who regularly holds un-ground drill bits in a collet, I'm offended you made me feel like I've been cutting corners all my life lol 😆

14:00 I've also found that sometime climb milling will give a better finish because of the direction the chips will take out of the cutter, however, I only take very small cuts due to my inexperience, and the small power of my very small machine. =D conventional milling can put the chips back under the cutter and cause vibrations and other problem with having to re-clear / recut the chips... granted you also have flood coolant helping clear the chips as well. And the CNC probably has coolant running out of the cutter, so yeah... Happy Friday!

I appreciate the effort into the video and respect your humility to the fullest. Well done man, looking forward to more works of yours.

Fantastic build - not surprised by the outcome. Your summation is exactly right.

I'm a CNC machinist / programmer who learned as is still learning on the job (no previous experience at all). I've learned a lot from your manual machining and have a ton of respect for the precision and forethought you put into your work. Thank you for this.

What you said at the end of the video is correct. And now you can understand, why there a manual machines in prototyping a common thing till today. You will always need manual machines. And the better you know them, the better will be the outcome.
As always a really good video. 👍

I love seeing projects made in previous videos popping up in newer ones, such as the precision machinist jack at 17:45. It's like this chanel's version of product placement or cameos.

Excellent video, I never cease to be amazed by what can be achieved with simple machine tools, all kudos to the operator of course.

I've been in the trade since the summer of 2018, 99% manual machining. I just got a job offer for a globally competing CNC shop which are training me to learn CNC, starting next month! Next huge step in my career and passion. I love the work you do with the beautifully engineered parts/videos you make, crammed with knowledge. Especially showcasing the capabilities between manual and CNC machining in this video. Much respect for everyone in the industry with a drive for education. Much thanks from Canada

Don't forget what happened to John Henry! :P

Nice job - and very interested to see the manual versus CNC comparison. Hats off to you for supporting the FSAE folk.

We've still got guys at work that roll like this. Give them the right kinda work and they kill it.

Super cool as usual! I learned a lot from your channel! Cheers!

This is some discovery channnel level drama. Really felt like i was watching my favourit shows from decades ago. love your stuff sooo much!

I Love the nod to the future and sound reasoning why cnc and cad are dominant but...... hands on old school will always own my heart. Big respect for the help you give the formula Kentucky as well!

I watch and follow alot of machining channels and videos on on UA-cam but for some reason your videos are just so likeable compared to others. Keep them coming.

You are definitely the most entertaining stepper motor on 2 legs i know😅...great video and great learnings

CAM toolpath 12 hours ? No way. It's a relatively simple part even on a 3 axis machine. Craig needs to step up it's CAM game :) "Carefully verifying each toolpath for 6 hours" means just to set up stock and run a simulation. 30 min tops.

That video is a great video. That's a very educative one. Your solutions with the rotating table are awesome. The details for finish are top. Certainly one of my favourites. Keep on this way 👍🏻

I am the Leading officer at the Baja team at my school, and people/ companies like Brandon and Machine Time are literally blessings to teams like mine. They're the most helpful sponsors we could have

Seriously, no chamfering? 😢

13:00 I have a complete manual machine with absolutely no dials (broke years ago), no DRO, and no power feeds. . . so this method is extremely wrist/elbow friendly. I love letting the tool and part do the heavy lifting *sic*. Just remember to factor that backlash in and imagine it like a handsy date trying to rush things and everything is manageable!

I'm very happy you mentioned the difference in making a second part at the end. Repeatability is the beauty of CNC! Still, amazing you were able to tie with even just the first part.

What a wonderful episode! I have zero experience in this field, but can almost smell the machines(!), thanks to your great work. Bravo.

Good job, im actually impressed you two foto finished (trying not to spoil too much here). Now as you said, for 1 or two parts manual might be fine, but on a complex part like this cnc is usually always faster. Especially if you leave away the first stage of him making a prototype part, wed never do that even for 100+ series of parts. Plus switching milling machine and tools basically negated almost every benefit he had from making a prototype part. Even making the other parts is just mirroring the toolpaths and a few adjustments here and there. If you have a proper model of your machine then you can just verify within the cam software that you got no collisions and start of right away :)

Best machining channel on UA-cam

Awesome video as usual. Great to see you being a realist about the speed of subsequently cnc produced parts.

As a member of the formula student team in Linköping Sweden this is really cool to see! What you people and companies do to support us is nothing short of amazing!
Loved the video as usual, especially the mountain of chips at the end! ❤

NEVER underestimate a manual Machinist, great job.

Necking down that ball mill - sneaky sneaky!
Regarding manual machining - CAD makes you lazy in a way that adding complex features are very easy, and machining them is very hard.
Where cnc really shines - banging out part after part after part.

Astounding work and all for a great cause. Well done both you and Craig, also good luck Team Kentucky. You and your Wife are really improving on the story and editing, thank you so very much for sharing your time with us.

I'm always impressed with the level of skill and craftsmanship that can be found right here in my home state. Thank you for showcasing your talents, the talents of others, and for helping others with what they need!!!

Awesome video! Great to see the comparison and seeing beautiful part’s coming off a manual machine

One of the most fun videos you've made! A great concept: man against machine, or man and machine against men and computers and machines. Nice work thinking through those setups and keeping the bulk for reference during the build. A smart AND generous guy!

My brother was in FSAE at The University of Toledo and I ended up getting interested in the machining he was doing there and later after he graduated. I built a bench top CNC that lives in my basement with a small South Bend lathe. Love what you're doing!

Mind blowing work!!! I can't even begin fathom how you mapped out those moves out on the mill with the rotary table?!?! I'd love to see how you set that all up in more detail!!

Great video, that was a fascinating project by all means and so complicated by my standards. Enjoyed, cheers!

I’ve watched every video buds!! By my count, 50 videos totalling 17 hrs 49min 56 sec give or take. Quite the marathon, Love your content and skills. You’re very inspiring!! Can’t wait to follow along!!

This was great to see! I had no idea that would be do-able on a manual mill. The comparison between the two forms of machining was also spot on. Having worked with CNCs myself, I know the time it takes for initial setups...& the stress that comes with it! The manual process us definitely more of an art form. Great job!

Incredible work. Machining-wise, and editing-wise. Well done!

This was great watching this. Goes to show that everything the DMG can produce, gained its mechanical roots from manual processes. Most people don't know that you can machine irregular profiles and contours with a rotary table. Gave me a lot of nostalgia from my days cranking handles. Beautiful work man.

Holy moly what a race... Thanks for let me know that people like you exist in the world. Absloutely amazing to watch

True machinist right here. First video I've watched of yours and I've already gained some knowledge (it seems that way anyways) . Making jokes the whole time and at the same time, keeping on track with the task given without veering off topic. Well done, keep it movin'!

Fun to watch, and gives very good insight in manual and CNC production.

I love waking up to a new video of yours! definitely one of my fav channels and really inspires me to push my fabrication to the best and learn as much as I can. Most of what I do is carpentry and metalwork for the entertainment industry but one day I hope to get into machining and use some of the skills I've learned here

Loved this one. It really shows me that I can try much more complex stuff on my old manual machines.

Awesome video. I always love your stuff but I love seeing you machine stuff that's not just for other machines/machining accessories AND this hits my combination of love of racecars and experience designing hogged out aluminum parts at work

Well demonstrated team! Thanks for showing the skills! Nice.

This was a really nice video, thank you. It reminded me of machining some differential mounts for my FSAE team a decade ago in college when the CNC mill was down. I followed a similar process, down to creating 3 different drawings for the 3 angular reference frames on the rotary table. The main difference in my process was holding the part by its bore in the rotary table with a 3-jaw chuck. It made centering the part easier but the vibration far from the center got pretty bad. Toe clamping the stock is much smarter. Love to see someone (slightly) more professional following the same process I figured out back then!

That was so much fun to watch. I'm absorbing so much amazing experience from your videos, I feel like I could become a machinist one day. It is also a good exercise in humility as I have to fight to keep my jealous side from hating you for how awesome your machine shop is. But, very grateful that I have such well made and entertaining educational material for free. Thank you.

Thanks to you and Machine Time for doing things like this. Having competed in FSE myself, i know how much teams depend on people throwing in their time and money without really getting much in return.
We, too did our first wheel hubs in CNC back than. Second season, we partnered with a team from our university to cast the parts ourself.
3d printing done beforehand, doing the forming, smelting and pouring only took about a day of work.
So casting CAN be also a viable option for just some one off parts :)

Great work @ both "shops"......I like the comparison approach you implemented in this video. It is a great walk through comparison . I would watch several videos taking this approach.

Absolutely love you putting the weights as well as the time taken.

Great video! I really liked the head-to-head. I didn’t think you stood a chance. I was surprised the first part came out so close on duration. And I was just queuing up in the comments to ask the part weight before/after and you read my mind.

Top-notch video, Brandon. I think you made really good time with your manual machines, and the results are spectacular!

It's great to watch these projects come together. And so I see the re-appearance of our friend the dual-rate jack? Missed you, buddy! Eventually every tool in your shop will have a history, and that's so very cool.

Thanks for letting us inside the process.

Great video and breakdown. We have a machine shop at my work and I have a small hobby CNC machine and home so I get to see them both being used and they each have their place.

Very fun video! Where CNC shows its true potential, is when you have not one part, but multiple. The added setup time is made up for in the cycle times.

Great seeing the machining comparison . Good luck Team Formula Kentucky.

Awesome comparison! Can't say that I ever remember another video detailing the pros/cons of manual vs cnc.

The return of the rotary table! It's so satisfying watching 4-axis machining done manually like this

O'm really impressed about how good those parts turned out on your manual setup, I also work whit CNC machines so I'm aware that to make precise parts you really need to check the setup, but on a manual machine that need to be even more spotless. Great job

this was an awesome video. I worked as an apprentice at a local machine shop when I was a kid and the owner also taught at the local vocational school and I used to assist with his class. most of my time was spent rebuilding hydraulic cylinders for tractors, or machine work on engine parts (I can rebuild a small block chevy with my eyes closed to this day). it's always cool to get to work on something like that. one of the cool features that the local shop had was a foundry in the back, anytime we worked on something that had a lot of aluminum chips like that, we would sweep them up and melt them down and pour them in to an ingot and then use them to make castings, then machine those casting to in stuff. we also used to melt down old aluminum scrap like pistons out of old engines, lawnmower engines, old aluminum rims, pretty much any aluminum scrap we could get our hands on. we would do a big melt about once a month. it was always one of my favorite parts of working in that shop, melt stuff down, cast it into a part, then machine it into something useful. other than mining the raw material, it felt like we had the whole process start to finish. the stuff i learned on was old, even by 1980s standards, but I am currently looking for a used Bridgeport mill and a Southbend lathe for my home workshop so I can start building things again.

Fluid mechanics, heat transfer and thermodynamics, I knew there is another reason why I love your channel

My hats off to you on this one. I couldn't even begin to think about how to make that part. You made it look easy, even though there was probably a ton of work in the planning and setup. Great video!

I used to watch 5-6 machining channels for years. It got old to me and I stopped them all cold turkey. But now because of you and CEE I’m back. Less is more when you find the channels that fit you right. Thanks for the content!

Excellent work! I bet your recycling bin is happy with you after all that effort. CNC is certainly fun, but manual machine can be just as fun. I loved your manufacturing plan and comparison afterwards. Keep busting out amazing vids

I am a SAE Baja alumni (they cut our formula team the year I started in engineering school) and this brings back some great memories. Thank you for all you do!

I'm just a bodger with a mill and a lathe, but I love seeing what can be done by people who know what they're about. A CNC mill seems to be the ultimate machine tool, but as you've shown, for making one or two parts, the older machines are just as good. And, for hobby-machinists like me, one part is usually all that is wanted. Keep up the good work.

The skill you demonstrate is next level, really puts my silly projects to shame but i'm learning. Thanks for taking the time to share this with us. Also I look forward to what you are going to do with the wavy endmills.