Some solid calculations went into those radii and the cross section of those necked down portions of the shaft. I cant imagine the loads this part has to take, but i know from the detail its significant!
Have a rest Chris!! I guess by the look of the cut it is full form on the threading. Seems the 1/2 angle is very popular in the US but when I did my time the only thing on square threads was to use a narrower tool and pitch L/R with the compound at 90 so less chatter.
I want to see the final machine assembly to see what it is, some lovely design on those parts to apply even clamping pressure to components that might not be in perfect axial alignment with the turnbuckle.
excuse my ignorance since I'm a noob machinist who's learning, when doing the turning operation with the round profile, I see you bite quite a bit of diameter to the point the tool gets really hot and even smokes. Is that normal and because of the cutting tool material? Does it need oil while doing the operation or ambient cooling is enough? Also, I love how surface rusted metal gets to shine again after machining, In my school since the parts we have to make aren't really gonna be used anywhere I tend to grab rusted brute rods or rectangular profiles, it's satisfying af to see all the rust dissapear and also when marking it for drilling the contrast between scratch and rust makes it more noticeable!
That print clearly said to tap those internal threads. You guys dont have a 5-4 unc left hand tap laying around? And a machine with enough torque to drive it?
@@jimurrata6785 I think you miss understood. Here in Brasil we use bronze on lathes to clamp the shaft to avoid damages on it after it had been finished. I wanna know what is that you use. It seems to be a rubber.
@@AlexSilva-tm7iu I don't think I miss understand. Brass shim stock is common, but I don't work on stuff as massive as Chris often does. Are you talking about the same timestamp I am???
Absolutely love craftsmanship videos like this that don't have stupid background music
I'm too lazy to add music to my videos.
Great video. NO music, just good sounds.
I'll try to keep it that way.
Chris, I can’t believe they actually pay you to have that much fun! Great work as always.
Yeah, there are fun days and crazy Hot Job, we need it ASAP days.
Thank you Chris for this superb machining video where there are beautiful left and right threads in close-up👍😉Happy Sunday to you.
I'm not a machinist, but my dad was for 50 years. He's gone now, but I guarantee he would say, That man is a MASTER MACHINIST!
Thanks, man. Appreciate it.
That looked like an interesting project. Very nice work!
Another great set of jobs Chris.👍
Bardzo ładnie wykonane👍
Veď som to urobil, musí to byť pekne urobené.
Beautiful work, as usual.
Some solid calculations went into those radii and the cross section of those necked down portions of the shaft.
I cant imagine the loads this part has to take, but i know from the detail its significant!
Chris, what a motherf…..g amazing job man! Truly a masterpiece of machining.
Thanks 👍
Have a rest Chris!! I guess by the look of the cut it is full form on the threading.
Seems the 1/2 angle is very popular in the US but when I did my time the only thing on square threads was to use a narrower tool and pitch L/R with the compound at 90 so less chatter.
That must be some car!
красивая работа. молодцы. спасибо за видео... хорошее оборудование
Great video as always
Can you say "extra heavy duty"! Wow!😂
I want to see the final machine assembly to see what it is, some lovely design on those parts to apply even clamping pressure to components that might not be in perfect axial alignment with the turnbuckle.
Awesome stuff!
Thank you Chris
Lovely video
Amazing!
Thanks for sharing 🇨🇦
Great video thanks for sharing 👍
Just awesome
Great video
beautiful work
OK, I'll be the first..
Nice work, you've got some big nuts there Chris!
really great work.good❤❤❤❤
Won't find those in a hardware store, good looking results
These won't fit in your little Ace Hardware plastic bags. 😅
Красота! beauty!
Yoga für meine Augen 👍
excuse my ignorance since I'm a noob machinist who's learning, when doing the turning operation with the round profile, I see you bite quite a bit of diameter to the point the tool gets really hot and even smokes. Is that normal and because of the cutting tool material? Does it need oil while doing the operation or ambient cooling is enough?
Also, I love how surface rusted metal gets to shine again after machining, In my school since the parts we have to make aren't really gonna be used anywhere I tend to grab rusted brute rods or rectangular profiles, it's satisfying af to see all the rust dissapear and also when marking it for drilling the contrast between scratch and rust makes it more noticeable!
That print clearly said to tap those internal threads. You guys dont have a 5-4 unc left hand tap laying around? And a machine with enough torque to drive it?
I would love to see someone hand tap that. You would need all the torque and then some.
Nothing like showing your hand holding something to show how large the items you are making are.
I was gonna use the banana for scale, but I've sent it out for calibration.
👍👍👍👏👏👏
❤
👍👍👍🤘
Hey 👋 Chris , can I know What type of camera are you using ?
My phone, old Samsung s20.
✋🏼🇦🇺👍🏼
👍🔩
Hi Chris! Could you tell me what is this material you use to tighten the shaft on the chuck? Why do you usually use it in triangular form?
Clamping the threads to prevent slipping and scarring? 9:50
Almost looks like emery roll you would use to polish a finished diameter.
@@jimurrata6785 I think you miss understood. Here in Brasil we use bronze on lathes to clamp the shaft to avoid damages on it after it had been finished. I wanna know what is that you use. It seems to be a rubber.
@@AlexSilva-tm7iu I don't think I miss understand.
Brass shim stock is common, but I don't work on stuff as massive as Chris often does.
Are you talking about the same timestamp I am???
@@jimurrata6785 I understood now. What grit usually you use for this purpose? Thanks in advance!
@@AlexSilva-tm7iu To polish a turning? (or reduce it by microns)
To clamp I usually use copper foil a little over 0.5mm