The Most Interesting BORING Video Ever | CNC Machining Vlog

My experience with manual boring: far too small, far too small, far too small, far too small, far too small ........ too big

happy to use metric

How to torture a metric person.

I'm actually a bit surprised it didn't go oversize since the second cut was a lot lighter than the first. You guys obviously know your tools/material though! If there was 0.008" material i would have gone .004-.005 radial cut first, then adjusted and cut the rest so that the cuts would be equal.

Got laid off couple months back but the learning never stops.. thank you titan and everyone!

I love everything about this channel. Can't wait until August when I start my engineering degree in CIM, CAD and CNC.

In germany, one of the first things we learn using a boringhead is to take the play out of the dial, this generally means only adjusting the diameter up and if we have to adjust it dow, to first spin the dial backwarts for one round and then set the final diameter while adjusting the diameter up.

Each "Division"

A wonderful explanation of gauge pins and setting boring bars. I'll never need it but now I know. Thanks Amacf

Very nicely done video. You have just proven to me that a tool presetter can be a necessity rather than just a time saver. The amount of time and effort I've had to spend just to get a bore that close to nominal before final adjustments.. Thank you!

On the boring head I use at work, locking the set screw moves the bar a thousand or two after you adjust it . It’s nice to not have to worry about that.

Love the videos keep up the good work!! For those of you who can't rely on your bore dial just use a tenths indicator attached to your table. Sweep the highspot of the boring bar and adjust accordingly on the Radius.

Wondering what the thought process was when implementing this workholding. Was it done this way to do one part with different intention if they were being manufactured in higher volumes?

Very good video guys, love it. I do connecting rods at work, with quite tight tolerances. 5 microns in diameter and 3 in ovality. It's really complicated to hit that tolerances with 0,6 Ra (metric). I will love to see more videos about boring, and how clamping affect ovality and taper. We have good recipes, but you are the chefs we need to learn from. Thank you 🤘

Do you ever use air gages. They will measure size, roundness and taper on tight tolerance holes. Good for high volume jobs

I literally just finished programming the Titan-1M part on feature cam at TulsaTech in my machining program. Is there any way to purchase one of those shirts hes wearing? Would love one.

I have questions about the recommended cutting speed of any material how can I find it? I know about formula how calculate speed and feed but the problem is with “Vc” and I actually read about cutting speed and feed in machinery hand book but it’s confusing

An interesting approach which obviously works well for you, I'd love to know how much the initial cut was...
Personally I'd leave around 0.2mm on, set the boring bar on the bore, take a 0.1mm cut, measure then take the rest... its been a while since I've been on the tools but I got pretty good at boring there for a while, never had the probe to be able to try what you've done here but even so I think I'd try to set it to take a semi finish then finish cut.
The reason being is lets say you set it to 25.4mm but you've got a rough hole of 25.2mm.
Your first cut would be 0.2mm approx and then lets say you have 0.02mm left, if you adjust your boring head by 0.02mm you run the risk of cutting oversize as you'll be taking 0.02 plus a spring cut... this is why I always try to keep my semi finish (trial finish) cut and finish cut the same DOC... you can also adjust you rpm to suit so your cutting forces are kept the same between semi and finish cuts....
High production I would approach different as well but for what looks like a 1 off part in titanium I'd have no problems explaining a trial finish cut to the Boss...

How would you hold a tighter bore tolerance on a few shallow bores(1/2, 5/8, 3/8) about one half diameter in depth with a tolerance of minus nothing, plus .0003. Having rubbing issues from time to time trying to get it to come in. Currently using tenth under low limit deltronic pins and low limit to high limit carbide class 2 pins with a small flat ground on all pins for air relief. Climate controlled shop

Your videos are epic dude .. i run a cnc in Australia BUT I would leave in a heart beat to work for Titian's of cnc haha . Good job fellas 🤘

could you check the diameter of the hole with your Renishaw Probe? setting 188 after probing the hole.

Well done ,Tony from Canada 🇨🇦

Please add more on the setup probing. Like adding screen shots of the controller after probing.
We're the holes predrilled? What size was the predrilling? What tool was used to predrill?

This is awesome, I start a new job in 3 days on cnc boring and am super excited.

Another question, do you guys have a tip for dealing with adjustment play after you tighten the lock screw? It always comes out much smaller for me, which makes it hard to precisely tweak the boring bar in 1 shot

Bore gauge would be better than the gauge pins. Because you can "see" run-out. Gauge pins are good to know the smallest part of the bore, but do not tell the whole story. But I'm knit picking. Great work.

When I worked for an engineering company many years ago we worked in imperial and metric but working to tenths of a thousandth was a bit much for what we were doing. 😞.

How long does it coolant last clear before turn this milky color again?

Nice job Stu, nice job.

can you show how you set up the probing cycle and were it showed you the exact dia that it probe?

Nice job, Stewart !
Question : No chamfering needed on the 1-inchers ?

Love the rotary pallet setup

Thank you for this amazing video, looking forward to more videos of this "diameter"

Thanks helped me a lot🤗

The veneer scale is a cheaper less effective scale that only works on thin materials that have wood grain printing on the surface. The vernier scale is still my trusted means of splitting hairs(hash marks) !

That's a perfect sound!

Couple of things. First don't forget to notify what direction to have your too facing at M19 so that when the boring bar exits it does not leave an exit mark.
Second it is always common practice to do a spring cut before making any adjustments. Other than that floorless. And for the metric guys just times the imperial figures by 25.4

Before u bore the hole to size first check to make sure they are concentric to the datum. Then take a rough pass with boring bar , check concentricity again then finish bore it to size. And I like using bore gauges but the pin works too.

Nicely done 👍

I never understood why they dont make holes straight thru the testing pins, as it is no you cant measure the whole hole because air will be in the way when getting to the bottom

Why no fine boring cycle? Keep up the great content! ty

Do the pins expand or contract with temperature varistions or is that not that important?

Great job and awesome!

I really wish he had used “division” instead of “deviation” and “vernier” in place of “veneer”. This has the young guys in my shop asking me questions and getting mad when I correct the terms.

There are several comments about different deflections from non-uniform material removal. That is true, but they missed one thing in the process. He bored in and out of the hole. The bore out cycle probably had a very light cut no matter how much material was removed from the bore in cycle (within reason).

Maybe you guys could do a quick video on properly programming for a boring bar as it needs to be timed and moved away before retracting as to not drag the insert up the wall. You may have some tricks to guys like myself not be so nervous about setting them up and running them. Great videos and keep up the great work!

Pins are fine for measuring a bored hole, especially if the tolerance isn't super precise and if you are on time constraints but I wouldn't go as far as to say they are the best way. Measuring on a CMM or using the in machine probe is much better because you can more accurately measure the size, circularity and taper between the top and bottom of the diameter.

Deltronic pins are perfectly acceptable for checking +/- .0005" tolerances. When you get down to +/-.0001 you need to use air gages or something like a Sunnen bore gage in a temperature controlled room/area. I use to do a lot of these kind of tolerances on a Sip Jig borer. Another acceptable measuring device for +/-.0005 is a Tri-mic or Intrimik. Like some have mentioned before, you need to be careful using pins for checking holes because they are only as accurate as the roundness of the hole you are checking.

Best sound ever 6:20

Does the boring bar cutter scratch the bore when you pull it up?

Yeah, right, ... two equal cuts and always try to cut a bit more material in the diameter then doubled radius of the cutting insert. The surface ist clear, no bumps in the wall or other deformations. And always take the right cutting speed.
Greetings from North-Germany

Love it!

I would like to see if you can finish hard steel with a key way

Watching this makes me realise how big our boring tools are at work, our biggest one is 670mm or over 26 inches

On the final pass did you change F&S?

I had no idea you could probe a boring head. Is there a reason you chose a boring head instead of a reamer? I generally see boring heads as a means to achieve diameters too large to buy a reamer in, but you can buy 1" reamers.

Sigh. This “hole size” “pin fit” test has always been a massive confusion in every shop I’ve been in. “Well if the 1.000” pin goes and the 1.0002 doesn’t ,Then it’s 1.0000 perfect”
No
If a 1.0000 pin goes, there is space in the bore. How much is unknown , but it is bigger or the pin wouldn’t go in. I would say this is somewhere around 1.00015, to 1.0002.
For a 1.0000 perfect hole size , your looking at checking with a .9999-.9998 pin floating in , and a 1.0000 pin as a line fit or a “no go” pin.
Yah after 30+ years you learn things … I learned this from an master inspector, when I couldn’t understand why my “pin went” in, but the zeiss CMM is showing it’s oversize by a few microns.
He then explained it to me and I was like “ ohhhhh “ right makes sense.
A perfect 1.0 hole is not going to accept an perfect 1.0 pin . Bottom line.

When you say a tolerance of 5 tenths, what does that mean? 5 tenths to me sounds like half an inch. Do you mean 5 ten thousandths? Thanks for all the videos.

finally an educational video, instead of just making some chips.

Impressive!

If you are going to bore holes in Imperial units (inches), make sure you buy the boring head with an inch scale to avoid having to convert your divisions into inches!

can we do slotting on vmc machine pls do reply

You're Awesone 🤙🤙🤙💪💪💪

Just Found out that +-.0002 inch is in metrical approximately +-.05 mm that for a metrical user like me isn’t a too much close tollerance, but like how I think I understood for you is a tiny tollerance, so I was wondering, do you receive and/or do you make pieces from drawings in metrical sistem? You make them using the metrical sistem or do you chance it in inch?
(I’m sixteen from Switzerland and lerned to use traditional mill, traditional and cnc lathe, pneumatics and drill (boring, assemblies, parallelism,...), so my english can not be the best but I’m learning many things from my school and from you, the next two years I’m going to learn how to use cnc mill, rectification and other things, so I’m gonna visit your videos for more information in the future!)

We have the same type of boring bar where i work. Only its MBM and not kennametal

That hole is .0002-.0003 over 1 inch cause 1 inch pin will not go in a 1 inch hole.

Are those diatomic pins expensive? 🤔

Why would you buy a set of those pins, instead of using a boring gauge??

Thanks for posting part 2 👍 so, if I recall correctly, the requirement was 1" + 0.0005"/ -0 (from the previous video) and you achieved somewhere between 1" and 1.0002" - that is pretty impressive. It would have been interesting to have compared the 1.0001" pin, judging from the fit of the 1" pin I think it doubtful it would go all the way in, even if it started. Given you're well within spec that would be a bit pointless exercise other than for interest's sake. I see the tolerance of the pins is 40 millionths - I think they are a little better quality than mine but then I'm not doing aerospace parts! Keep up the good work 👍 just a thought, 0.0002" is 5.08 microns (I'm Metric), the width of a human hair is between 17 and 180 microns

The plug gages should be used with "white" grease, not dry. How did you measure the first cut? Gage or another set of pins? When you use Bore Gage(set on Bore gage ring), you can see, if he hole is round or elliptical. Gage pin doesn't reveal that flaw! And most of the holes are elliptical, if the tool is not perfectly balanced - i.e right on the axis center! (due to uneven eccentric force while rotating in not perfectly balanced state).

I knew my overseas craptacular boring head was inferior but I didn't know just how inferior it was that is a beautiful piece of equipment....

Спасибо !

As a beginner I have such a hard time with boring bars

"DIV" is short for "division" (i.e. one division of the circle/rotation). "DIV" is not short for "deviation."

The hole went over size! That 1.0000 Deltronic certainly had more than .0002 clearance... and the 1.0002 NO GO pin was never aligned properly, and if it had been aligned properly it would have gone to. That a large chunk of titanium to trash like that. You should have crept up un that cut with balanced dept of cuts.

Pins are tricky to use.
You have to be perfectly aligned.

Beast

Sorry to say it's not exactly one inch if it's accommodating the one inch deltronic

Air gage or bore gage?

DIV is a Division but not "Deviation"

That is sick.

Use a tape measure and call it a day lol jk but perhaps a bore mic or air gage?

Would it not be easier to use a bore milling cycle/ helical?

Interesting video, too bad I'll never have a VMC that can take advantage of that kind of precision. That Deltronic pin set (0.9988 to 1.0012 by 0.0001 steps) costs ~$300 which is less than I thought it would be. Of course the boring head (not including boring bar) is $1200. Then again, the price SpaceX pays for the part is probably astronomical. Literally.
BTW, those are 'divisions' not 'deviations'. And what is this with the 'veneer' scale. It's a vernier scale. Two R's. It would rhyme with Turnier if that were a word.

Boring Head : Ya Daga Daga Daga Daga Dag !
Precision Rod : Yupppppppp-Nokkkkkkkkkk
He : That's perfect Sound.
Mmmmmmm So it's about the sound.
Hehehe , great video and quite educational

You need to learn diference between deviation and division.

Can that haas keep half a thou tolerance? Not being sarcastic, legit question

Why wasn't he using a torque wrench to lock it?

In fact why don’t you have him set up a bore gauge that would be a good video because I’ve never seen deltronic pins in my life and that just sounds expensive

.0005 is a huge tolerance;!;););) jk. Awesome job.

Or just use a bore gauge

BOOOM

Ream?

Geez, you act like this is rocket science or something. 🤷🏽‍♂️

yes, hell for a "metric" guy, and i thought this vid would be boring , lol

you forgot to say :"BBOOWWWMMMMM" ^_^

Dang this looks expensive (if scrapped).

Bore Bar... Boring Bar...

If you got a nickel every time you heard the "boring" pun, what color would your Lamborghini be?

Obviously these guys are rookies, you use a bore gage to check a hole of thats size and depth, I don’t think there holding tenths tolerance