yup that was a really good call, I sometimes use plasticene to check what hammer blows I need for blacksmithing but I would never have considered it for machining
@@thegoldenatlas753 its a lot like a shaper or wood plane where the cutting edge slides across the metal/wood cutting a shaving but the broach cutter just moves forward more slowly
"You're making it weird" sliding up while he slowly pops that bar in and out had me laughing so hard. I love the comedy bits interspersed throughout the videos.
@@InheritanceMachining Is it primarily plastic deformation or by cutting action at to "top" corner/face (or perhaps some combination of the two)? If it's mainly by shear, I imagine you have to really slow down the feedrate so you don't outpace the broach, right?
@@MacroAggressorShould be both of it's working correctly. If you want to break it down, imagine the behaviour of a 1 degree slice of the action in cross section.
Calling out "the two jankiest bolts I could find", then making two bolts to satisfy the notion of Eric's desire to see some bolts made, then explaining that those two new bolts would replace the janky ones, is some grade A Chekhov's Gun setup/payoff. 👍
What always amazes me the most with these projects is the sheer number of tools that you need to make tools. AND you need to know exactly what the best combo of those tools is, to properly create a setup that will let you make the other things. Figuring out how to get things positioned to machine a precise angle is always magical to me.
Once you do it enough times it kinda becomes a second nature, plus you kinda build up a collection of clamps, blocks, and angle cheat codes. Basically as you make a thing to solve a thing, you should hoard the thing you made to make the thing.
To be fair a lot of tools i use are just because I can. There are multiple ways to skin a cat, especially in machining. There are whole gangs of people that make everything with just a lathe. Including parts that are milled!
The addition of the drawing when you were doing the internal boring was a GREAT and helpful addition. I think clickspring does similar and it really does help with the additional context!!
You channel is so damnably satisfying, Brandon. It gives me such joy to see a new upload. Exactly what I need after a stressful week of work. Thanks so much for the care, attention, humor, technical skill, and humility you show. You really do have something special going on with your work and videos. Thank you for sharing with us!
I had only understood when someone else did a similar project (though I think bought the entire thing) and used it on a mill. I think it was a square hole that was being broached for a keyway with a hole that was later being cut out
Wanted to say, I absolutely adore your video-specific intro teasers. It comes across super polished and always gets me a bit hyped and curious seeing the highlights.
Knowing that its the new video day, I was refreshing YT to see when it shows up. At some point during the video, I noticed that the number of likes was 500 then by the end of the video it reached 1000. Now that's what I call a success. Congrats for all the hard editing work. Your videography and story telling are exceptional! Thank you for inspiring me!
Knowing where that one extra left out screw goes is already a battle that's been won! I usually have to spend 15 min figuring out where that goes (I usually deal with laptop and phone boards with different length, thickness and format screws). Usually left with few at the end.
Can't wait for the side project that is making the box of shame larger.. also the fit that you made weird was completely understandable, every one of us would've done the same 😊
Oh my, it was only at the very end when you used the rotary broach in your mill that I finally understood how the heck it works. The rotary action is misleading. It’s all in the wobble! 😮 😂 Thank you sir. 👏👏👍😀
Joining the "didn't know how a rotary broach worked until today" crew. These demonstrations are fantastic for the people that aren't familiar with machining!
Hardening of steel is best done by dipping in oil than water after reaching a cherry red temp of around 900 deg C. It doesn't matter if that is used oil too, but a good clean new oil is always welcome. Annealing, on the other hand is done by dipping in water or just left to cool down to room temperature naturally. This is the method taught to me during my apprentice days at Bosch, Bangalore, India between 1981-1984.
That is true for much of the commonly used tool steel in home workshops, which is most often O1. (The O is for oil hardening). Also for many hi tensile steels including chrome moly grades like 4340. However quite often tool steel is better served by a water quench (usually with salt added) such as with W1, or a cold air blast (eg A2, also HSS). In particular, steels intended for air quenching should never be quenched in liquid.
So excited to watch this, but I have to admit the broken tap in the beginning just makes me want to see that neglected tapping fixture that hides in the background get some love. :D
Fantastic project and video mate! Your editing is really starting to embrace the entertainment side of making videos :P Just one note on rotary broach tools; you should grind a concave radius on the tip of the tool, similar or greater than the clearance angle you cut the sides at. This creates a negative rake angle on the tip and improves cutting performance massively. And some tips on hardening and tempering; keep the material cherry red for longer if you can, it helps the material austenitize properly, and use quench oil if you can. Water is rightly very effective, but brutally so if quenching parts with stress concentrating geometry. Brine is good middle ground (water and salt). And Tempering should be done at 2 hours minimum regardless of thickness, even though the scripture says an hour per 2,54 cm. Looking forward to your next project!
Silver steel is designed to quench in water......"Silver Steel Hardening Heat slowly to 760 - 800°C using the upper end of the temperature range for lower carbon contents and lower end of temperature range for higher carbon contents. Austenitize until the temperature is uniform. Quench into well agitated water. The approximate quench hardness is 65 to 69 Rc."
Thanks for the explanation of how it works! I didn't understand how it's different from just pressing a hex peg into a circular hole, but after you told that it's at an angle, it all really clicked together. I lvoe this channel.
🎉now you can make one at 1:1 if you can find bearing that work. Sweet build. I think your grandfather would be so happy to you diving in and making all the cool tools and parts. I know I would be. 😊
I work hard and revard myself with this video and sure enough, I fell asleep half way through. Got woken up by monkey howling and I now get to rewach the whole thing gigling at every oportunity guessing what did he break this time?
When you are broaching the steel, it looks like the tool pushed into the jacobs chuck a bit. It might warrant making sure the shank of the tool is set back all the way so you arent just relying on how well the jaws grip the shank.
I absolutely love your channel. Watched 3 of them in the past hour after you were recommended to me. I bought a Bridgeport and Southbend lathe for the muscle cars I work on. Unfortunately we got nailed in Florida by Hurricane Idalia and I'm remodeling everything. My equipment, luckily had minor damage and watching your videos is getting me amped up to redo the mills again. Plus the lessons you're giving are top-notch. Thanks, Bob
weird how i never asked myself how these hex holes are made. never would i have imagined you just force sharp edges down a round hole. not only that… everything spins! your content is gold. thank you.
Much appreciated! I should mention though that there are multiple ways to make holes like that. And in the case of regular screws like the one i showed at the beginning, they are forged!
I'm currently in school training to become a machinist myself and you have no idea how much joy it brings me watching your videos and slowly understanding more and more about what you're talking about and the overall concepts that are used. Really gives me hope that I'll be a half decent machinist by the end of my schooling.
Bro I love this channel. Thank you so much, the vibe is so chill, it's like being in the workshop with your dad or something. This is gold, please don't stop, and thank you for sharing your projects with us man ✌️
Very nice. I have one of those kits in a drawer where it has lived for several years. I may actually make it one day. Thanks for the video keep on keeping on.
You've gone and done it again Brandon... absolute perfection and everything described so elegantly. And yes, it might be a curse too you, but... it is going to be an absolute blessing too us! Being able to now watch you watch you make each and every bolt (where possible with this kit) for all of your projects, is going to be another blessing added to the greatness that is Inheritance Machining
At work I run a 4.5m x1 m x 1.5m bed mill cnc. Mainly making crusher parts. We started doing model versions of some parts for customers and industry shows. Doing parts that size were a challenge on my machine… fun though.
some of those threads really are thread fine I applaud your switching form metric to imperial and back again too, nicely done. I often use imperial and metric measurements when I build things but only because I get a more memorable number depending on which one I use.
i just wanted to say Thank you for your videos and all the cool stuff that you are doing. It entertains me to see you doing everything step by step and it teaches me a lot about machining. I am an Mechatronic Apprentice and because of your Tap Follower Video i wanted to do one by myself for one of our laths. I made the designs by myself and had them approved by my machinistshop master. After that i made the tapper part and the tip out of 4105 steel and the cap out of brass, Looks F*cking Awesome.
OMG the explanation was all i needed! for the longest time i was still wonderig what's the diference between rotary and regular broaching! i didn't know the angle thing
Nice to finally see a video with units i understand completely. Lol, i kid, being canadian I do actually use both. Just metric makes more sense to me. Hope everyone is taking care
Nice video. I love to watch you work. BTW, I find that putting parts to temper in balled up aluminum foil evens out hot spots that can develop and overheat the piece.
If this project was my smallest to date, then it only makes sense that the next is the LARGEST!
build a lathe
Yes indeed
Damn are you going to empty your box of shame? jk
The box is definitely not named well. Box of treasures would be a better name, considering how much we all learned while it was being filled!
😳
HECK. The playdoh bit made me finally understand how those things work. GENIUS!
right? i have never understood the wizardry of the broach until now.
I still don't get how its cutting... The playdoh just gets push out the way in the example.
yup that was a really good call, I sometimes use plasticene to check what hammer blows I need for blacksmithing but I would never have considered it for machining
@@thegoldenatlas753 its a lot like a shaper or wood plane where the cutting edge slides across the metal/wood cutting a shaving but the broach cutter just moves forward more slowly
me tooo xD
Due to your videos I now chamfer my cheese before putting it back into the fridge. They're fantastic
😂 Thank you
Best comment of the day award!
Oh yeah, that’s the helper tax whenever I grade Parmesan
I think that I will steal the phrase "chamfer my cheese" it is just too good
I felt that breaking carbide boring bar in my soul.
That little click of failure echoes forever
😭
You need to make some holders for those small carbide boring bars.... a missed side project methinks...!@@InheritanceMachining
I want to see a boring bar holding thin strips of a sliced junked circular saw to rescue those brazed carbide tips
@@adven999
No stranger to the snap here. Those looked like Micro 100 tools. That stuff is so nice.
"You're making it weird" sliding up while he slowly pops that bar in and out had me laughing so hard. I love the comedy bits interspersed throughout the videos.
And it was 2 minutes after admonishing himself to not bust through the bottom too fast. He knows his audience
@@zildjianbabyYup!
And now all of us know what Machinist Porn is...
😄😁😆😅😂🤣
We now know his "search" 😳🤣🤣
I had headphones on so I heard everything.
EVERYTHING
Surprised there wasn't some Barry White over the top..
I had always wondered how rotary approaches actually worked. That Play-Doh demonstration really helped me understand.
Who knew kids toys could make it more understandable 😂
@@InheritanceMachining Is it primarily plastic deformation or by cutting action at to "top" corner/face (or perhaps some combination of the two)? If it's mainly by shear, I imagine you have to really slow down the feedrate so you don't outpace the broach, right?
@@MacroAggressorShould be both of it's working correctly. If you want to break it down, imagine the behaviour of a 1 degree slice of the action in cross section.
Calling out "the two jankiest bolts I could find", then making two bolts to satisfy the notion of Eric's desire to see some bolts made, then explaining that those two new bolts would replace the janky ones, is some grade A Chekhov's Gun setup/payoff. 👍
If only I had that foresight. Those were literally the only bolts I could find!
I saw it coming. It definitely had that foreshadowing tone.
Yep, and the mini boring bars that should be used for a long time...
What always amazes me the most with these projects is the sheer number of tools that you need to make tools. AND you need to know exactly what the best combo of those tools is, to properly create a setup that will let you make the other things. Figuring out how to get things positioned to machine a precise angle is always magical to me.
Once you do it enough times it kinda becomes a second nature, plus you kinda build up a collection of clamps, blocks, and angle cheat codes. Basically as you make a thing to solve a thing, you should hoard the thing you made to make the thing.
To be fair a lot of tools i use are just because I can. There are multiple ways to skin a cat, especially in machining. There are whole gangs of people that make everything with just a lathe. Including parts that are milled!
@@InheritanceMachining Why do those ‘gangs of people’ use lathes for milling?
Because they’re lathe-y… 😂
@@wayngoodman3099 😆
The addition of the drawing when you were doing the internal boring was a GREAT and helpful addition. I think clickspring does similar and it really does help with the additional context!!
Nice! I'm glad that came across how I hoped. Thank you!
Don't cry, man. We are here for you. :)
No, go ahead and let it all out! We could all use a good cry once a week, I think.
You channel is so damnably satisfying, Brandon. It gives me such joy to see a new upload. Exactly what I need after a stressful week of work. Thanks so much for the care, attention, humor, technical skill, and humility you show. You really do have something special going on with your work and videos. Thank you for sharing with us!
Absolutely my pleasure, Anthony! Thanks for always being here
I never understood how a rotary broach worked, until now. I learn something new with every video you put out. Thank you!
Playdoh for the win! Thank you
I had only understood when someone else did a similar project (though I think bought the entire thing) and used it on a mill. I think it was a square hole that was being broached for a keyway with a hole that was later being cut out
Wanted to say, I absolutely adore your video-specific intro teasers. It comes across super polished and always gets me a bit hyped and curious seeing the highlights.
My wife appreciates this comment especially 😁 Those are her creation and idea!
I can't imagine the process of making these videos is simple or straightforward, but you make it seem like it could be. And your narration is perfect!
THANK YOU for using metric! Finally your measurements mean anything to me!
Yeah these weird americans use hamburgers and what not for meassuring but the metric system
What a great project, and so beautifully shown!
Thank you, Ron!
YEY ! meter for the win, i finally understand the scale of what you are talking about !
😁 were my hands not a good reference? haha
love when you edit the image to show the technical drawing on the part as you bore the inside diameters, it helps understanding the whole process.
Knowing that its the new video day, I was refreshing YT to see when it shows up. At some point during the video, I noticed that the number of likes was 500 then by the end of the video it reached 1000. Now that's what I call a success. Congrats for all the hard editing work. Your videography and story telling are exceptional! Thank you for inspiring me!
Wow... that is nuts... I'm still blown away everyday by this channel. Thank you so much, sir!
Click the bell, then go to your profile, settings, notifications, and it'll alert you as soon as.
The playdough demonstration really helped! Thanks. In your last attempt I was soooooo confused about how it worked.
I'm glad! Yeah I didn't do the explanation justice that first time thinking most people were already familiar from ToT's series one it. I was wrong 😅
Knowing where that one extra left out screw goes is already a battle that's been won! I usually have to spend 15 min figuring out where that goes (I usually deal with laptop and phone boards with different length, thickness and format screws). Usually left with few at the end.
For real... also sounds like the array of bolts you have around a small engine cover haha
that cross section overlay is so cool! haven't seen other RUclips machinist do that yet
Agreed!
This Old Tony.
@@BrilliantDesignOnline Thanks! Someone said they may have seen Clickspring do that too.
Can't wait for the side project that is making the box of shame larger.. also the fit that you made weird was completely understandable, every one of us would've done the same 😊
😂 that's what happens when my wife does the edits!
I thought the castoff borng end? Could have been made into even smaller one. Then it wouldn't count as being junked :)
Oh my, it was only at the very end when you used the rotary broach in your mill that I finally understood how the heck it works. The rotary action is misleading. It’s all in the wobble! 😮 😂 Thank you sir. 👏👏👍😀
Before you made it weird, I literally made a delighted chirp while sitting alone in the kitchen and surprised my dog. Truly satisfying fit.
😂 I don't think I've ever chirped in my life!
I’m just here to boost the algorithm. I love this shit.
Easily the funniest machinist on RUclips
*this old tony has entered the chat...*
Have you not seen This Old Tony, ahem.
*this old tony has entered the chat*
Oof don't let This Old Tony hear that
Don't let Old Tony hear you.
These videos are so awesome! Everything from the crisp visuals to the fun narration makes it a blast to watch! Thanks!!
Thank you!
Joining the "didn't know how a rotary broach worked until today" crew. These demonstrations are fantastic for the people that aren't familiar with machining!
Playdoh for the win!
7:57 Using an inside micrometer with a rod to pick up the cut piece? Maximum respect!
Telescopic gauge, not internal micrometre
Hardening of steel is best done by dipping in oil than water after reaching a cherry red temp of around 900 deg C. It doesn't matter if that is used oil too, but a good clean new oil is always welcome. Annealing, on the other hand is done by dipping in water or just left to cool down to room temperature naturally. This is the method taught to me during my apprentice days at Bosch, Bangalore, India between 1981-1984.
That is true for much of the commonly used tool steel in home workshops, which is most often O1. (The O is for oil hardening). Also for many hi tensile steels including chrome moly grades like 4340.
However quite often tool steel is better served by a water quench (usually with salt added) such as with W1, or a cold air blast (eg A2, also HSS). In particular, steels intended for air quenching should never be quenched in liquid.
👍 ! Nice little project , but still a lot of machining . Thanks for taking us along .
So excited to watch this, but I have to admit the broken tap in the beginning just makes me want to see that neglected tapping fixture that hides in the background get some love. :D
😂 i made a better one with that tap follower. I can't bring myself to clean that old fixture up!
These vids are world class. After the little Play Doh thing, I FINALLY understand how these things work! Thank you!!!
You sir deserve a pid controlled heat treat kiln.
( The parts have gotten cheap too!)
Oh I know! It's on my list!
I love this channel so much, the little bits of humor are great!
How cool to see you here, man. Thanks!
Fantastic project and video mate! Your editing is really starting to embrace the entertainment side of making videos :P
Just one note on rotary broach tools; you should grind a concave radius on the tip of the tool, similar or greater than the clearance angle you cut the sides at. This creates a negative rake angle on the tip and improves cutting performance massively. And some tips on hardening and tempering; keep the material cherry red for longer if you can, it helps the material austenitize properly, and use quench oil if you can. Water is rightly very effective, but brutally so if quenching parts with stress concentrating geometry. Brine is good middle ground (water and salt). And Tempering should be done at 2 hours minimum regardless of thickness, even though the scripture says an hour per 2,54 cm.
Looking forward to your next project!
Thanks for the tips!
AND kind words 😊
Silver steel is designed to quench in water......"Silver Steel Hardening
Heat slowly to 760 - 800°C using the upper end of the temperature range for lower carbon contents and lower end of temperature range for higher carbon contents. Austenitize until the temperature is uniform. Quench into well agitated water.
The approximate quench hardness is 65 to 69 Rc."
Your playdough illustration of how a broach works was brilliant! Keep up the great work!
You can use a magnet to check the rigth temperatur for hardening steel. If its not magnetic anymore you got the right Temperatur for quenching
Thanks for the explanation of how it works! I didn't understand how it's different from just pressing a hex peg into a circular hole, but after you told that it's at an angle, it all really clicked together. I lvoe this channel.
🎉now you can make one at 1:1 if you can find bearing that work. Sweet build.
I think your grandfather would be so happy to you diving in and making all the cool tools and parts. I know I would be. 😊
😁 Thanks, Joe!
That's by far the best demonstration for how a rotary broach works I have ever seen.
Thank you sir!
I work hard and revard myself with this video and sure enough, I fell asleep half way through. Got woken up by monkey howling and I now get to rewach the whole thing gigling at every oportunity guessing what did he break this time?
One of the best yet!
Nice and relaxing as always
When you are broaching the steel, it looks like the tool pushed into the jacobs chuck a bit. It might warrant making sure the shank of the tool is set back all the way so you arent just relying on how well the jaws grip the shank.
This is the comment I was looking for. For reference, its at 25:54
Good catch! I left it out for that aluminum test so I could access the shank screws but didn't find out it wasn't sufficient until the steel 😁
14:15 is a machinists greatest moment
underrated comment
I have technician diploma in (car)mechanics, but I would never suspect that allen socket can be made like this on a lathe. Soooo nice😍
great project! surely you've already fixed the lathe misalignment?
Keep up the humour, it makes your content incredibly entertaining. Thanks for all the great editing.
Great video as always! Would be cool if you did some sort of tutorial series?
Thanks! I avoid avoid sounding like I know what I'm doing. I still make silly mistakes haha
I enjoy your humor. I also enjoy your processes. Thank you for your efforts.
I love how you have started to be more lively in your videos compared to how you were a year ago when I started watching.
I usually take a little while to come out of my shell 😂
That 'pop' was very satisfying. Thank you for this moment.
Thanks to you I made it weird and now I feel weird!
Thank you for the videos, I do nothing with machining but it interests me, and your vibe soothes me to no end.
much appreciated!
what I find most amazing is that somebody thought it would actually work when they designed the first one
For real
Comedy and machining. Feels like I'm back watching This Old Tony videos. Great work!
YOU MADE it werid by POINTING IT OUT!
the editing to put in the overlay at 11:22 is amazing, would love to see more like it!
This Old Tony made a cool rotary brooch video too, happy to see more about it
Marvellous work, as per. Much kudos for even mentioning metric, just so good to hear.
😁 Thanks
I absolutely love your channel. Watched 3 of them in the past hour after you were recommended to me. I bought a Bridgeport and Southbend lathe for the muscle cars I work on. Unfortunately we got nailed in Florida by Hurricane Idalia and I'm remodeling everything. My equipment, luckily had minor damage and watching your videos is getting me amped up to redo the mills again. Plus the lessons you're giving are top-notch. Thanks, Bob
weird how i never asked myself how these hex holes are made. never would i have imagined you just force sharp edges down a round hole. not only that… everything spins!
your content is gold. thank you.
Much appreciated! I should mention though that there are multiple ways to make holes like that. And in the case of regular screws like the one i showed at the beginning, they are forged!
I'm currently in school training to become a machinist myself and you have no idea how much joy it brings me watching your videos and slowly understanding more and more about what you're talking about and the overall concepts that are used. Really gives me hope that I'll be a half decent machinist by the end of my schooling.
Oh I'm just a dude in his shop with no formal training haha wont be long before you surpass me! Thanks, man
nevek20 Are You learning on a CNC or manuals or both?
That is auto thumbs up for you sir!Don´t need to watch the video to know it is golden!Thank you sir,very much for these!
What a really great demonstration for folk that dont know. Nice!
Thank you sir!
Bro I love this channel. Thank you so much, the vibe is so chill, it's like being in the workshop with your dad or something. This is gold, please don't stop, and thank you for sharing your projects with us man ✌️
Are you calling me old? 😂 Seriously, thanks, man. I really appreciate it
@@InheritanceMachining no such thing as old, 8'm saying you're wise 😉
Awesome content. I'm learning quite a bit here...
I really don't know what's getting better, your manchinesmanship or your acting❤, please keep these coming as you sir are brilliant
Machinemanship. I like it! thank you sir
Your work is so elegant.
Nice. Probably the best video on a rotary broach I have seen.
Very nice. I have one of those kits in a drawer where it has lived for several years. I may actually make it one day. Thanks for the video keep on keeping on.
Would be a good side project next time you need to make a bolt 😂 thanks
As usual I enjoyed your video. The playdoh was perfect to explain the process.
Thanks, Ben!
You've gone and done it again Brandon... absolute perfection and everything described so elegantly.
And yes, it might be a curse too you, but... it is going to be an absolute blessing too us! Being able to now watch you watch you make each and every bolt (where possible with this kit) for all of your projects, is going to be another blessing added to the greatness that is Inheritance Machining
If I've made a tool I will almost always go out of my way to use it 😂 Thanks Aston!
@@InheritanceMachining looking forward to watching you make use of these plenty of times in the future
OMG, thats such a cute Tool!!!
Like a Stanley No. 1 handplane
Finally, someone has enabled me to understand how these crazy things work.
LMAO "you're making it weird" and the oh yea's was hilarious. Love your videos and your attention to detail.
😁
I love the kiddo-friendly visualization.
good video brandon..thanks for your time
Man, I felt that sigh at 4:17 in my sole.
Thanks for another awesome project!
that "kiddo friendly" example was fantastic haha really explains it as simply as it is
Thanks! I'm keeping the playdoh around for future explanations haha
Very well done !
At work I run a 4.5m x1 m x 1.5m bed mill cnc. Mainly making crusher parts. We started doing model versions of some parts for customers and industry shows. Doing parts that size were a challenge on my machine… fun though.
I think this is the most humorous video you've done yet!! You're working your way up to This Old Tony level. Great job!!
dawww shucks! Thanks, Alan
some of those threads really are thread fine I applaud your switching form metric to imperial and back again too, nicely done.
I often use imperial and metric measurements when I build things but only because I get a more memorable number depending on which one I use.
i just wanted to say Thank you for your videos and all the cool stuff that you are doing. It entertains me to see you doing everything step by step and it teaches me a lot about machining. I am an Mechatronic Apprentice and because of your Tap Follower Video i wanted to do one by myself for one of our laths. I made the designs by myself and had them approved by my machinistshop master. After that i made the tapper part and the tip out of 4105 steel and the cap out of brass, Looks F*cking Awesome.
I love the chips of spinning broach and stationary parts! This video didn't show, but they can make very satisfying chip formation! 😍😍
The clay demonstration on the lathe was a great visual!
Thanks!
That was a very nice tiny project. Thank you ❤
Thank you!
OMG the explanation was all i needed! for the longest time i was still wonderig what's the diference between rotary and regular broaching! i didn't know the angle thing
That 1 degree makes all the difference!
Awesome Work !
Nice to finally see a video with units i understand completely. Lol, i kid, being canadian I do actually use both. Just metric makes more sense to me.
Hope everyone is taking care
I have nothing to do with machining anything in my life. But this is so relaxing to watch.
I look forward to more content from you!
Glad to hear it! Thank you for being here
I always eagerly await your videos. So much fun to watch. Great content AND editing. Thank you!
Thank you!
Made the same noise you did in unison when you checked that first cut in the aluminum, that is some satisfying stuff
😁
Nice video. I love to watch you work. BTW, I find that putting parts to temper in balled up aluminum foil evens out hot spots that can develop and overheat the piece.
The subtitles get me everytime! Are we talking about an Eric from Canada who talks about emotionally distant garbage?
"Fffffffffffailure ... is good!"
Brother went straight from anger to acceptance! I felt that little snap in my neck.
😂
I’ve had that deep sob moment also 😂
we've all been there, man