Why I Adjust my Tool Height for Internal Chamfering on the Lathe - Machine Shop Tricks & Hacks

It's little things like this that make you realize that the learning for a machinists never ends.

I actually learned this when I was an apprentice in the Max Planck Institute many years ago! It makes instant sense if you think about the geometry of the layout. It was good to see it explained so clearly. Thanks very much.

You are effectively changing the angle between the tool and the surface being cut. Also helps with the back relief angle to not touch the internal cut.

I notice it too, but since I'm not a machinist, I assumed it was for better clearance. It is nice you take your time to explain. Regards!

Experience is the best teacher. Not being a machinist I never even noticed you doing this but it makes a lot of sense when you explained it

I was wondering about that as well.
I love learning stuff!

Morning,
I also wondered why the change for internal but did not ask in my reply. Being a self taught hobbyist, I assumed you had good reason and thought I would try it at some point.
Thanks for the feedback to all of us.

When I studied Turning at Technical College circa 1977, we were taught that the internal tools had to be above center exactly for the reasons you explained. With one addition, the softer the material, the higher above center the tool had to be offset, with cast aluminium and brass requiring the biggest offset. Thank you for your time explaining these quirks.

I didn’t actually pick up on this first time I watched the bushing video - so went back and watched it again. Thanks for the explanation and demo - I’m going to go and experiment with this. I sometimes end up with a burr when chamfering and I bet this fixes it. 👍

Thank you Josh!

Coz I ain’t a machinist in anyway shape or form, i just went on the info and principle of keeping the tooling on centre.
But always had a sneaky thought on raising the tool for internal stuff just that little bit. Hmm I might have a play around with this. Awesome and thank you!

Definitely works, I’ve done it often. I’ll add raising an OD tool slightly depending on the diameter and clearance angle can help with vibration on slender shafts. Use with caution and consideration.

Been machining for 45 years , always grind tool to suit the job at center hieght.

Back in the early 1960 while at a technical college I was tort that. It was never explained to us, I suspect because it was not explained to them. Told to just do it. So thank you for your reading of why, it makes sense. Back in those days it was a case of 'do as you are told, not why.'

useful little tip ...or big tip depending on the size of your lathe ..
thanks Josh

I did not know that. (Johnny Carson). Love that Lion BTW.

I did wonder why you did that and I did not think to ask. Thanks for explaining this so well

Makes perfect senses, Thank you.👍

That’s a great chamfering tip. Never thought about the clearance issue. Great channel.

Great explanation. I like the concept of a short video which explains a detail of the longer one. Hope to see more of them.

By setting the tool high, without resetting the center height nut, it allows a rapid switch to O.D. chamfer height. We do that all the time & I saw that You did that in the bushing video, it's the other 1/2 of Your trick & some might not have caught it.

Thanks for the demo… I was one of the ones that asked!. The video demonstrates it very well!

Josh, nicely presented! I appreciate and enjoy your channel

Your tool height differences between ID cutting and OD cutting can be somewhat mitigated by leaving your OD tool height set and locked, but cutting in reverse, and on the opposite side of the ID for boring, chamfering, trepanning etc.

Raising the cutting tool slightly for internal turning is effectively adding positive rake to the cutting tool. Similar can be achieved by using a positive rake cutting tool on/at center.
Note the cutting tooling this video is a brazed carbide zero rake tool.
Negative rake tools do not really "cut". Negative rake turning tools remove metal by heating up the contact surface area/point to where the metal becomes soften (plastic) enough to be plowed away from the work. This is why negative rake tools work good when there is enough SFM, rigidity and power from the lathe. Negative rake tools are a LOT tougher, durable and able to remove metal-A-plenty compared to positive rake tools. It is also why negative rake tool don't produce a good surface finish with light cuts and due to the forces involved negative rake tools don't do well at small cuts at all. This is where positive rake tools work better, they are good at light cuts, can deliver a good surface finish, required a lot less power.. except the cutting edge is fragile.
There is no ideal turning tool, just the best trade-off for a given need as much as the machine tool will allow coupled with the size of work involved.

Thanks

fantastic Josh, thank you so much for
bringing this up and explaining,
cheers, Paul from Florida

I noticed that you were raising the tool for the internal chamfer on the last video and I was thinking that the tool post you are using makes it really easy to do that. Some older lathes don't have that type of tool post, so raising the tool for an internal chamfer is a lot more difficult, as it would involve packing under the tool. Modern conveniences sure help with simple things.

Thanks Josh for explaining why you raise the chamfering tool. A lot of non-machinists now know.

Have had to do this with some boring bars also.

I started doing it years ago working with brass. The geometry change affects how the tool deflects. At center or below any deflection causes the tool to cut into the part, above center and the geometry pulls the tool out of the part. On a worn or small machine, the deflection can cause digging in, chatter ect.

Nice.

I have been doing that for years particularly with a boing bar. There certainly are a lot of experts out there ready to call you down.

Josh your videos are very informative you know your shit

Thanks for the tip :) did you ever get a chance to watch that reverse parting tool video?

You either have a specific tool for every conceivable job or you adapt what you have. If lifting the tool stightly for clearance saves me buying a new tool unnecessarily I'm all for it. There are many occasions where clearance is an issue, mainly internal or when trepaning, so when i see you doing it, i dont even think it unusual.

Works for a wood lathe also.

Learning on the job, you will find this out soon or later..

If it feels good, do it! Even though it's not following "convention ".

I knew when I seen that in the last video, people would wonder. Lol

That piece of tubing in the lathe scared me. I thought you were going to cut on it. Would you machine that with that much hanging past the chuck?

i've been machining sense 1985 and you are WRONG if you would grind more of a relief on the cutting side of the tool it will cut great and the smaller the part the more important it is to be on center of the part

What in darn tarnation is going on here who turned on the CGI effects? Hello,😅

Great explanation thanks for sharing

Excellent. I've seen a lot of people use a small boring bar or even an internal threading tool for inside chamfers. I guess it's what works for you is the best way. Thank you.

We have to raise up the chamfer tool or make aggressive clearance to avoid crashing the body of the tool

You’re dead right and that was well explained 👍👍👍👍

I have a chamfering tool set up just as you have, used it for years now. I always ground extra relief on the one side for the extra clearance needed. Your trick there is like magic. I will start using it. Thanks for the tip, Ken

On average, how much are you moving it above centerline? I am going to try this today, but it was unclear on how much. 5 thou? 20 thou? I know it will depend on the board size, but there has to be a limit , right?

Josh,
Great hint.....def gonna try it when I get a chance....I dont use cemented carbide hardly at all.....indexable or micro 100 stuff mostly as my parts I work on are usually small....and follow up a chamfer almost always with a quick touch of emery and a cratex polish...overcast and +44 rt now ....grass and lawn are peeking out....driveway down to stone.....YAAAAAYYYYY....
Great instructional vid for the masses......
Don

I saw the video on Saturday, ask myself what you were doing, then I realized you were compensating for the internal clearances, and it all made sense. I am not a machinist, but try to learn whatever I can. You explanation was helpful and clear.

~ I HAVE DONE uh TON OF BIG FACTORY MACHINE MACHINING ~ AND I WATCH THOSE CLOSE ON U/TUBE...AND I SEE...
~ AS THIS MAN USES HIS YEARS OF EXPERIENCE ~ APPLES IT, AS THAT IS WHAT MAKES HIM A PROFESSIONAL CRAFTSMAN !!!
~ WATCH HIM VERY CLOSE & LEARN...

Good tip..I do the same thing
👍👍

Very leery of internal grip in a jaw chuck, especially with a long part. They just don't hold like external chucking. Be safe! I have most all my chamfer tools relieved for clearance, but lifting is an easy way that also works.

I have to do the same thing on My HF mini lathe.

Learned something this morning, Thank You

Yeahhhh I was wondering about that ! Thank you so much for the explanation !

Excellent. Thank you for sharing ! 👋

That's a great tip, Josh. I'm going to try that next time I do an internal chamfer.

Very clear Josh, thank you so much for posting this.

Thanks for explaining that. I never knew that it made any difference as long as the tool had clearance.

I always had a chamfer tool in it's own holder with the ID side ground for clearance so that I didn't have to do that...

Thanks for the video. You are a good teacher.