I'm new to this channel and really enjoyed the video... Was that a magnetic live center?...thank you for sharing this... I'm subscribed and will be back
His insert would last longer if he was to use coolant yes (generally speaking), does he "need" coolant? absolutely not. You can generally tell if your speeds and feeds are wrong by the heat generation of the part and by the chips, i learned if your chips turn blue and the part isn't getting that hot your speeds/feeds are right. And generally speaking the faster you can remove the material the less heat you generate (because it is in the chips). !!!And i have to note here that some carbide insert manufacturers recommend using NO coolant because of the thermal shock (rapid cooling and heating), which could cause the insert to crack on you.!!! Yea he is tacking big healthy cuts not like other machine channels who baby their machines..
Nice proof of performance in using 3d printing in parallel at work. It speeds things up! Even if you were to make a delrin test part, 3d printing makes more sense for rapid prototyping and less waste of expensive materials, especially in a home shop. No one wants to buy a do-over slug of steel. 3d printing saves you from kicking yourself in the coin purse. Appreciate the work you do for the community in sharing your knowledge, thanks again.
Sitting in the Shed on a Sunday Morning with a Coffee and sketch pad and pencil with this playing. One day I hope by baby Lathe grows up to at least a little 🙃
Kyle, you are one Efficient and Smart Cookie......love how you think when it comes to saving material.......best wishes, Paul in Orlando.....aka Y Paul Brown
Kyle, hope your open house went well, wish I was there, and Arnfest too.....best wishes from a very wet Florida, Paul....say hello to Lyle Peterson for me.......
I would have cut the piece first and then worked in the lathe, obtaining essentially maximum rigidity and concentricity, without tail support. I also would have bored everything in one piece, from the back side. The additional dial-in at the end for chamfers would not require maximum accuracy. And actually could be done through hole.
After you teach it to sing Kyle you'll then need to teach them dance! Good going Kyle on making some nice chips. P.S. You want to see some chips fly, checkout HAL engineering. He's in Australia and he's some monster bars.
Generally speaking for roughing in steel I like to run it at around 180M/min at .3-.4mm/rev and about 4-6mm on the radius. If you're not looking for a decent surface, give her some feed, makes the chip really small and easy to work with.
you should run for president with all that useless word salad, or do you get more money if you say the same thing 25 times.... could have cut this down to a short..
I'm new to this channel and really enjoyed the video... Was that a magnetic live center?...thank you for sharing this... I'm subscribed and will be back
When you were facing the second side I was waiting for the center slug to come out and it was edited out
You should install an amp meter on your lathe so you can keep an eye on the electrical load.😊
Nice work. That Pacemaker is one beast of a lathe.
And it was at this moment that mini lathes didn't seem so cool anymore. That American is a BEAST. Amazing work.
you got that right
Unless Quinn is using the mini lathe, it’s indeed hard for them to be cool
@@jamesriordan3494 good point.....
Grretings, n00b here, don't you need coolant to this operations? Still in the first half of the video, but I can tell:
This is machining Pr0n! :-D
His insert would last longer if he was to use coolant yes (generally speaking), does he "need" coolant? absolutely not. You can generally tell if your speeds and feeds are wrong by the heat generation of the part and by the chips, i learned if your chips turn blue and the part isn't getting that hot your speeds/feeds are right. And generally speaking the faster you can remove the material the less heat you generate (because it is in the chips).
!!!And i have to note here that some carbide insert manufacturers recommend using NO coolant because of the thermal shock (rapid cooling and heating), which could cause the insert to crack on you.!!!
Yea he is tacking big healthy cuts not like other machine channels who baby their machines..
Nice proof of performance in using 3d printing in parallel at work. It speeds things up! Even if you were to make a delrin test part, 3d printing makes more sense for rapid prototyping and less waste of expensive materials, especially in a home shop. No one wants to buy a do-over slug of steel. 3d printing saves you from kicking yourself in the coin purse. Appreciate the work you do for the community in sharing your knowledge, thanks again.
Sitting in the Shed on a Sunday Morning with a Coffee and sketch pad and pencil with this playing. One day I hope by baby Lathe grows up to at least a little 🙃
You did a great job I like it more than I expected how is your machine work.
Killer turning shots! That American sings a beautiful song in the zone. So excited to see you using 3d printing for prototyping / testing.
Nice closeups! You certainly gave your lathe a good workout!
Brilliant as always 👍🏻👍🏻👍🏻🇬🇧
Kyle, you are one Efficient and Smart Cookie......love how you think when it comes to saving material.......best wishes, Paul in Orlando.....aka Y Paul Brown
Kyle, hope your open house went well, wish I was there, and Arnfest too.....best wishes from a very wet Florida, Paul....say hello to Lyle Peterson for me.......
Morning Kyle,
Great video producing a part with some heavy material removal while preserving material needed for a second project.
Thanks for sharing.
I would have cut the piece first and then worked in the lathe, obtaining essentially maximum rigidity and concentricity, without tail support. I also would have bored everything in one piece, from the back side. The additional dial-in at the end for chamfers would not require maximum accuracy. And actually could be done through hole.
After you teach it to sing Kyle you'll then need to teach them dance! Good going Kyle on making some nice chips. P.S. You want to see some chips fly, checkout HAL engineering. He's in Australia and he's some monster bars.
Man my daughter uses the acronym ASMR all the time, could watch turning all the time, relaxing.
Generally speaking for roughing in steel I like to run it at around 180M/min at .3-.4mm/rev and about 4-6mm on the radius. If you're not looking for a decent surface, give her some feed, makes the chip really small and easy to work with.
It would be nice to see where the finished components "live"; fitted and installed. Cheers.
Nice chip! I am curious why the puck and not a healthy center drill size for the center?
What insert do you using for the heavy machining/rhoughing?
Nice job Kyle, great looking chips.
Very nicely done. Thanks for sharing
Cnmm insert for heavy machining
Hi
Where are you learn machining?
Like your “billet cam” set up !
Good video. Thanks.
No grease fitting?
Perfectionism
GREAT VIDEO.👍👍💯
Hi
Great job.
Nice!
How’d the meet and greet go yesterday? I wish I could’ve made it.
Good a few guys rolled through went well.
So far so good but if you are done with your work please take your chuk wrench out of the chuck.
Woo another chuck wrench comment 💪
At 12 mm it looked like you were pulling sheet metal of that billet 😊
Indeed
Now we're havin fun!
Yes indeed
Doing work. Nice!
Thanks
First
you should run for president with all that useless word salad, or do you get more money if you say the same thing 25 times.... could have cut this down to a short..
If You don't like it go watch something else.
Go somewhere else ..
I agree. I like the short explanation of his as opposed to the ramblings of Aboms.
@@raindeergames6104 sounds like something a harris supporter would say.. hide from the truth and have only one view the wrong one