My primary take-away from this one: when planning the order of operations, remember that they're not necessarily the same operations in each possible ordering. I had a jaw-dropping moment when I realized that you were going to leave much more support for the final pass than I initially thought was possible. This just reinforces my faith in my method for approaching difficult tasks: I ask myself, "how would Joe Pie do this?".
Yet another great video Joe. Being a 60 year old apprentice looking over the shoulder of a true master of his craft is an honour, and with no interviews for the position, what a bonus. Thank you so much for sharing that wealth of knowledge.
Glad to see you throw the measurements out there, it makes it real when I look at a scale or mic and see how small this really is . Thanks for the tips !
I just love how you go the plans one better and machine delicate small parts. I realize that the "plan" designers, are trying to make the part easy to make. Even so, Your methods ALWAYS come out on top. A little extra time and effort is the way to go, to make outstanding finished parts. Stay cool, and have a cold one, in the shade, Texas DOES get a bit warm, this time of year. ;-)
I’m just a garage amateur. I would have never thought to do it that way. I would have been trying to take 0.050” off and turning the part four times like Joe did at the end.
I have waited very long to see how small specific part like these are made. I know its bound to happen to me at some stage or another. So i say thank you so much for this "shop gem" as you would call it
I came running, believing you’ve had accepted my challenge in doing work on a mini mill and mini lathe but that’s not the case 😢 I really would love to see uncle Pie doing work on a Sherline or DB200 Unimat, just to be amazed by the tips and tricks you could come up with to share with us. I even wanted to make a new headstock with bigger roller bearings and larger throat but all made using these mini (micro?) machines instead of a big lathe. Well, I’m very patient, uncle Pie! Still love all videos and appreciate your kindness! You made us better machinists!!!
Joe - please do a segment on approaching the hand filing of a semi-finished part..I’m sure I’m not the only one that has screwed up at the very end of an operation by ham fisting fit/finish with dodgy filing. Bench position, file selection, order of operation, filing “assists”, etc. would be most helpful. Great video BTW.
I'm differently 😂putting this option into my save folder. About the 100 degrees. Moved from Michigan to South Dakota. It darn hot, what really helped. The air wasn't humid--most of the time.
So great! I mostly make small parts and I’ve a bad habit of diving in and cutting away material that could have been helpful as support. Great lesson. Thimk!
Great work! Without taking anything away from the excellence of this method, the alternative method suggested, namely silver-soldering the square tubing to a base requires it's own set of great skills around heat control and fixturing small workpieces to ensure a good result.
Hey Joe. Great post to cover some gentle procedures. If at all possible I would love to have made this from a grade 8 bolt. Nice and sharp with little time on it. You have a really fine touch on all your moves I have seen you make over the years now. Mine are similar by a wee bit but noughthing like yours. Take care and hope to see you soon my old friend.
I would've loved to see one of the cuts in real time and perhaps list cutter speed for reference. But hat's easy enough to figure out.. Anyway would find that helpful. However I cannot fault the value in what you have presented here Joe, this is huge. I generally make medium to large parts in repair work, but on occasion small parts or some sort of fixturing is needed. You sir have elevated my game in that respect exponentially. I learn something new every time you post a video. Thank you sir.
Some nice practical how-to by a master of his craft. Great approach, Joe. Great results. Cheers P.S. 17:30 Love the tiny Chrysler building you made out of that second piece ;)
What are those little steps at 90° on the round face? Is there some axial play in your spindexer? I thought it was an illusion at first, but i caught a glint off the step when you were measuring it around 10:20.
I was holding my breath when you did the second part, didn't even realise I was doing it ! 102 degrees, I don't know how you do it, is the humidity high ? I'm in Florida where it's 'only' 92 degrees, local TV weather people kinda piss you off when they happily say 'It will feel like 106' (due to humidity) I'm sweating so much in garage it's dripping on material and being 'salt water' causing bad corrosion if I don't notice, wipe it off and re-oil. (at least I'm keeping machines in reasonable shape 🙃)
Us metric folk dont mind saying half a millimeter, quarter millimeter etc, but quarter is probably the limit. Writing it down is a different story though.
Is it just me, but something about the taper doesn't make sense... -Why do you have a smaller finished dimension on the end sticking out furthest away from the workholding? Isn't the deepest cut the one that is closest to the workholding where the material is the most rigid, which would therefore produce the smaller end of the finished product? -Am I missing something?
I find it funny that some people want to know the size of everything. I find myself completely ignoing measurements, i guess when you do them all the time you realize that is not the relevant information in this video. I try to focus on the most important and useful information not some meaningless number that i will forget anyways.
I would never have imagined such an approach. I feel like I learned something important from watching this. Thank you.
Glad you enjoyed it! Now the trick is to remember it. :)
My primary take-away from this one: when planning the order of operations, remember that they're not necessarily the same operations in each possible ordering. I had a jaw-dropping moment when I realized that you were going to leave much more support for the final pass than I initially thought was possible. This just reinforces my faith in my method for approaching difficult tasks: I ask myself, "how would Joe Pie do this?".
I've seen those bumper stickers: "WWJPD?"
Yet another great video Joe. Being a 60 year old apprentice looking over the shoulder of a true master of his craft is an honour, and with no interviews for the position, what a bonus. Thank you so much for sharing that wealth of knowledge.
My pleasure.
Another technique for the arsenal. Thank you Professor Pie.
Glad to see you throw the measurements out there, it makes it real when I look at a scale or mic and see how small this really is . Thanks for the tips !
I just love how you go the plans one better and machine delicate small parts. I realize that the "plan" designers, are trying to make the part easy to make. Even so, Your methods ALWAYS come out on top. A little extra time and effort is the way to go, to make outstanding finished parts.
Stay cool, and have a cold one, in the shade, Texas DOES get a bit warm, this time of year. ;-)
I’m just a garage amateur. I would have never thought to do it that way. I would have been trying to take 0.050” off and turning the part four times like Joe did at the end.
Joe, You never cease to Amaze me with the tricks you come up with!!
Joe Pie, on today's episode of sharing next level wisdom..... Thanks Joe!!
The Professor is at it again! Brilliant Joe , just brilliant. Stay cool.
I have waited very long to see how small specific part like these are made. I know its bound to happen to me at some stage or another. So i say thank you so much for this "shop gem" as you would call it
Very nice Joe ! Can’t wait to see what this is leading up to . 🤔 !
I came running, believing you’ve had accepted my challenge in doing work on a mini mill and mini lathe but that’s not the case 😢
I really would love to see uncle Pie doing work on a Sherline or DB200 Unimat, just to be amazed by the tips and tricks you could come up with to share with us. I even wanted to make a new headstock with bigger roller bearings and larger throat but all made using these mini (micro?) machines instead of a big lathe. Well, I’m very patient, uncle Pie! Still love all videos and appreciate your kindness! You made us better machinists!!!
Joe P the human C.N.C. This man runs a manual machine smoother than my CNC machining center.😂
Makes perfect sense once you see a professional do it. Thanks for the info !
thanks for the lesson joe, always interesting.
cheers
ben.
Very nice. You are the master of making small parts.
Joe - please do a segment on approaching the hand filing of a semi-finished part..I’m sure I’m not the only one that has screwed up at the very end of an operation by ham fisting fit/finish with dodgy filing.
Bench position, file selection, order of operation, filing “assists”, etc. would be most helpful. Great video BTW.
Another great technique! Thanks for sharing!
Joe Pie, the Wizard, in action. Yet one more way to make thin things. Easy when one see it. Before, head ache thinking how to do it.
I'm differently 😂putting this option into my save folder. About the 100 degrees. Moved from Michigan to South Dakota. It darn hot, what really helped. The air wasn't humid--most of the time.
I always learn something from you, as they say"every day is a school day"
Thanks again
You just make this look easy. Like a great champion, everyone thinks they can do it. Wonderful Joe.
Thank you.
Great stuff as always, thanks for sharing
So great! I mostly make small parts and I’ve a bad habit of diving in and cutting away material that could have been helpful as support. Great lesson. Thimk!
Glad it was helpful!
Great work!
Without taking anything away from the excellence of this method, the alternative method suggested, namely silver-soldering the square tubing to a base requires it's own set of great skills around heat control and fixturing small workpieces to ensure a good result.
Great precision work again,Joe.Thank you.Well,here with a jacket on in central Spain.WOW.
very imaginative solution Joe, cheers!
Many thanks Joe.
Very well thought out thanks Mate.
Beautiful!
Very clever... thanks Joe.... 🙂
From NZ... mid winter here!
Wonderful idea, this will assist a project I'm involved with right now!
Hey Joe. Great post to cover some gentle procedures. If at all possible I would love to have made this from a grade 8 bolt. Nice and sharp with little time on it. You have a really fine touch on all your moves I have seen you make over the years now. Mine are similar by a wee bit but noughthing like yours. Take care and hope to see you soon my old friend.
Thanks for dropping by Dean.
@@joepie221 Always a pleasure Joe.
Brilliant! Thanks, Joe
Glad you liked it!
Valuable methods Joe - thanks.
Joe, another case of you being amazing!
You are a wizard!
I would've loved to see one of the cuts in real time and perhaps list cutter speed for reference. But hat's easy enough to figure out.. Anyway would find that helpful. However I cannot fault the value in what you have presented here Joe, this is huge. I generally make medium to large parts in repair work, but on occasion small parts or some sort of fixturing is needed. You sir have elevated my game in that respect exponentially. I learn something new every time you post a video. Thank you sir.
Nice work, thanks for sharing
As always, absolutly great.
Well son of a gun, I never thought that would work! But it did thanks to Joe’s expertise.
Great video. Would like to see the index wheel setup behind the chuck. You whip that around 90 degrees 👍with great confidence.
Looks like he is using a spindexer.
That was super smart!
Nice Joe, have a great independence day and try to stay cool
Some nice practical how-to by a master of his craft. Great approach, Joe. Great results. Cheers
P.S. 17:30 Love the tiny Chrysler building you made out of that second piece ;)
True machinist, it's more than obvious.
Nice work and thanks for the Metric equivalents !!😊
fine work
Excellent as always
Brilliant, fascinating, enlightening.
Great idea!! Thanks for sharing!
Have a great Forth of July. Thanks for your videos
Awesome shop gem - thank you!
you sir are a legend.
102 F, you are nothing more than amazing tollerating those temperatures. I start melting around 72, LOL.
Nice job on a challenging part.
Thanks Preso.
What are those little steps at 90° on the round face? Is there some axial play in your spindexer?
I thought it was an illusion at first, but i caught a glint off the step when you were measuring it around 10:20.
The camera makes them look a lot bigger than they actually were. The change in surface grain just amplifies it too.
Awesome as usual.
Thanks for sharing 👍
Great tip. Thanks!
Great thinking🎉
Mind blowing 👍👌
Thanks again
👍 thanks for sharing
Nice technique. Was that a block of Delrin you were filing on?
Thanks.
JOE MERCI
✋🏼🇦🇺👍🏼
Our metric conversion journey started 1966
It started in the USA around 1970, and stalled. Except for car engine sizes ... My 'Stang has a Five-Oh, baby!
82 temp nice day in Walla Walla Washington set are new shop 7000sq ft
👍
I was holding my breath when you did the second part, didn't even realise I was doing it !
102 degrees, I don't know how you do it, is the humidity high ?
I'm in Florida where it's 'only' 92 degrees, local TV weather people kinda piss you off when they happily say 'It will feel like 106' (due to humidity)
I'm sweating so much in garage it's dripping on material and being 'salt water' causing bad corrosion if I don't notice, wipe it off and re-oil. (at least I'm keeping machines in reasonable shape 🙃)
Love the work around! Thanks!
Maybe you should call yourself advance renovations 😃😃😃
Clever!
If you ever watch a Joe Pie video, you will learn some math❤😊
Thanks. I hope so.
WOW!!
Us metric folk dont mind saying half a millimeter, quarter millimeter etc, but quarter is probably the limit. Writing it down is a different story though.
Agreed but using fractions, like in the imp system, implies "near enough" not to micron tolerance.
Go walk a league off a furlong pier. Sarc//
@@EluderatnightThat was creative! 🇨🇦
Is it just me, but something about the taper doesn't make sense...
-Why do you have a smaller finished dimension on the end sticking out furthest away from the workholding?
Isn't the deepest cut the one that is closest to the workholding where the material is the most rigid, which would therefore produce the smaller end of the finished product?
-Am I missing something?
The geometry of a milling cutter can pull the work into the cutter
@@markdymond5352 aah thank you
If this was a production job, and the error was constant, I'd shim the indexing head to offset the error and get perfect parts.
@joepie221 I was wondering if the taper was due deflection or your indexer not being a perfect 90° to your cutter.
gerat tekneek
You make it look so easy. It’s not!
102 wow 50 here this morning
👍👍
I find it funny that some people want to know the size of everything. I find myself completely ignoing measurements, i guess when you do them all the time you realize that is not the relevant information in this video. I try to focus on the most important and useful information not some meaningless number that i will forget anyways.
The camera can mislead the viewer into thinking the part is bigger than it is. Thats the only reason I mention it.
Do you even do work that is not miniature anymore? 😜😜😜
hi and wow.
Кривий Ріг 📯 вітає 🎉 всіх, мирного неба Україні
Firsties!!!
Pure Genius