I dunno about you guys, but I get a constant education from Peter. We are fortunate he shares all of his knowledge with us!

Peter, another great video. The inner stress of materials is a massive pain to deal with. Your process and adaptation wins the day. Thank you for the share!

After almost 40 years of machining I definitely feel more educated on machining processes after each video I watch. This guy is very humble and even admits his faults. It's so refreshing to learn more about my trade from this Master Tradesman. Appreciate your content and may even take credit for some of the tips tricks I've learned from you at my position as a machinist.

always love hearing the knowledge and experience. keep at it and hopefully i can learn as much as you have forgotten!

I certainly appreciate the insight into the technical nature of the machining processes. Can't thank you enough!!!!

Thank you for sharing the wisdom you gained from this job. I have many questions but I'll think it through and ask you the best one.

Aluminum bronze has many of the same issues with deflection and warping as this titanium did, but on a much lighter scale obviously. I never needed to change inserts more than once a job for instance. I came to the same processes and procedures as you did when I had to figure it out myself with the light cuts and flipping it every pass. Too bad this video wasn't out before I had to do those jobs years back. Hopefully someone will watch this before they need it!

I really appreciate you taking the time to share not only what you're doing but the thought process behind it.

Thank you for taking the time to walk us through this process. I studied this video, going back and replaying parts to make sure I understood and have really learned a lot.

Thanks Peter, I been a machinist for 25 years and I got to the point to change paths/careers. Watching your videos for the pass month I miss the machining processes. My wife saw me watching your videos and she ask me if I miss machining. I do.

You sir are a true craftsman that works veryhard to keep the world up and running thank you for sharing

flashbacks of doing that with thin brass in grinder with double sticky tape. thanx for the videos and showing what it takes not just heavy cutting. good job.

Yeah, the stresses put into the stock as received from the rolling mill really can cause a lot of problems with warping. And, of course, the flipping of the parts side-to-side to even/balance out the stresses help a lot. I personally haven't used enough insert tooling to experience worn inserts adding to the stress in a plate, but it certainly makes a lot of sense. Figuring out a procedure to successfully overcome the material's internal stresses while meeting the required dimensions/tolerances is a lot of what makes a good Machinist, as shown here. Good job!

Another great and informative video showing the use of your new clamps you designed and how in machining you keep the part from warping. Great to see you sharing your skills and how you go about tackling the different projects you work on

I like this channel BECAUSE you're doing your thing. I appreciate your skill and experience, and the patient way that you explain things to those of us without the background to understand what you're doing or why you're doing it in a certain manner. I think the comments are mostly supportive and interesting. But I like that you address those negative comments.

Thanks for this video. My machining experience level is about 2 out of 10. You help many folks regardless of their experience.

Really, really impressive results. That's a big piece to be ending up flat within 0.001, let alone in titanium..

I just had to do the same sort of a thing in some Alloy 800H, had to take a 12" x 6" 1" thick plate and make a 3/8" thick plate out of it, thankfully I didn't have to hold super tight thickness tolerance but they wanted it as parallel as I could get it. I ended up using a button insert cutter and I found that worked pretty good. I had a really sharp super alloy grade and just indexed them every cut for the last couple passes after roughing it down to around 1/2" the day before and letting it 'rest' and spring overnight. I was able to get it to stay around .003" parallel with some .01" finish passes. I wish I had some of those fancy clamps, they are now on the list of things I need. I suffered with some blocking bars and regular vises. Thanks for making these videos!

You are the reason my salary and interest and my anthusiasm for machining keeps growing

It's great seeing the videos where things don't go as planned, that's where the learning is. Thanks again those clamps are bad ass everytime I see them

I look forward to each of your videos and appreciate the insight you give. Thanks for your time and effort to film, edit, and share your work.

You are a Saint for taking the time to explain your Process. I certainly Appreciate it, even though i have been Machinist since 1985, because there is No easy way to machine Titanium especially Flat...

That was cool. I am glad to see the torque for the drill is no issue and the milling works fine too. Thanks for sharing!

Thanks for taking the time :) This is not my industry, but I find it fascinating!

Excellent and very informative video. Usually what we see is most of the stresses are in 1/16 outer layer of the part. Once we get down under the crust, things settle down especially when removing material evenly from both sides. Your clamps are the real heroes in this op. Also not over tightening the screws, because that would bow the center of the part. I had to machine down some stainless plates and what I did was remove material evenly while using mitte-bite clamps but right before the finishing opps, I used positive insert cutter to dust off the top and at the same time we used a hard rubber backing material so the material would not distort. Another option is to get it blanchard grind. :)

Beautiful work! Keep up the great videos!!

Another great job Peter excellent lesson thanks 😊

Being a tool and die maker here, I can fully appreciate your craft. Don’t sweat the haters. There will always be some arm chair champion out there wanting to claim their title. We know the job and what it entails. Working with titanium is always fun! Lol! I love those clamps you made in the last video. Your work is accurate and on point. Keep up the great work!

Very valuable video, thank you. Lumber always develops internal stress when it dries. When you split the wood with a saw, the stress bows the wood, and then you just straighten out the cut with a jointer. This is a great process, since the only reference surface is the one being planed. The backside is just kind of floating in the woodworker's hands so there is hardly any stress from "workholding". Having my background in woodworking, I went for a similar approach when I had to face some big aluminum plates. I'd epoxy the plate to a fixture with only little weight to hold it down while the epoxy cured in order to keep the plate's shape and prevent springback once I'd separate it from the fixture. Then I'd flip the plate and face the other side and be done in 2 setups. Worked out ok, but I must have gotten lucky that there were no significant internal stresses in the plate which would have curved it despite the gentle workholding. Can't imagine how it would have worked out if the material would have also developed stress from the cutting.

Always good stuff from you Peter. Cheers

Thx Peter, interessting video! Interessting material. 👍

Really enjoyed this video. The way you explain thigs just make sense!

Just found this channel today this is very cool

Thank you Peter, tricky problem with an un-obtainium material! Clamping pressure of those differential screws is approximately 36:1 on the thread times the torque applied so very easy to over tighten and bow the workpiece.

I have 2 of the same face mill. The inserts have so many sides it’s awesome. I have found that when one starts to go though, you gotta turn it or the rest will start to go pretty quick. Great tool anyhow.

Yikes that seems like someone on the other end really goofed up lol. I have had my fare share of struggles with something similar and finally got our customer to let us stress relief the material as all the removal was happening on one side. Finally figured out if I machine very slow with new tooling and stress relieved material I was easily able to hit spec.

Yet another great video 👍💪☺️

The clamps are pure genius.

Thanks for another great and educational video Peter, its a shame that a small uneducated minority make these throw away comments not realising the time and energy that goes into making these brilliant videos, the content is always next level, giving detail and info that only a true machinist appreciates..👏👍👌.... Always look forward for your next upload, thanks again Pete

Just to take all variability out of the process, I would suggest using an inch-pound torque wrench on your clamps in a set pattern when doing a run like that just to remove a variable.

Those clamps that you made worked like a charm! I'd like to see you do a solid model assembly and demonstrate the mechanics of them using animation .Thanks for sharing.

I am always thankful for your sharing. It is going to be interesting how you control the warping when you start on the actual part. I hope you can share parts of the process.

I always enjoy listening to a skilled machinist that understands the effects of material removal. The experience of cutting a wide variety of materials and understanding the tool pressure being introduced to the stock. The importance of cutting tool selection in what would seem like a straight forward facing operation can only be explained by a machinist that understands stock removal. The hardest part of making money on a part like this is quoting the price to the consumer. Great video thanks for taking the time

A master class by The Master.

como siempre un trabajo perfectamente echo como buen profesional que eres.gracias por compartir tu conocimiento..un saludo

Also good insights Peter. I spend a lot of time working out how I'm going to make large uncooperative slabs of material very very flat and parallel.

Pretty impressive result with all the bowing problems you had!

I'm so happy when I found this Sunday night surprise. It would've been a little nicer to see more of the actual machining. I just like to see the tool spin and chips fly.

Good job 👍👌

Try shimming the part, I machine almost exclusively stainless, when we are worried about a part warping we shim the air gaps under the part, clamp, and machine trying to keep cool, and then when you flip there’s nothing to worry about, great video!

I haven't had the chance to finish your video yet but I will say titanium just plan moves. I don't doubt that some of it is your inserts but dam, it just moves too. I work in an aerospace machine shop and we use Ti a lot. We do a lot of roughing cycles to give it a chance to settle before we finish. We have a lathe job that is mostly finished on one side including the bore that is +/-.003 but if you put a dial bore gauge on it before you finish the backside it will say +.005. Finish the back and it comes right in on size. Looking forward to finish your video tomorrow and hear how you solved your issues.

Thanks for your videos

Keep doing you 🖖🏼 never change

I love the rando piece of scrap paper w the extremely important numbers on it! I roll the same way w post-its. Like don't throw out that napkin it's got the launch codes on it🤣🤣

I think there's two great joys in life: making tools and buying tools. I appreciate that you show the thought that goes into doing something "simple" that has many hidden complexities. A question for you: do you have apprentices or people that you are teaching? I'm a mechanical designer for a company with our own machine shop, and it's always interesting to me both learning how we do certain tasks and how we train new people both in the engineering office and the shop floor. Your videos are an excellent resource; I think most of the time people don't get taught everything they should because the teachers don't want to spend all that time doing the teaching, now it's possible to "outsource" some of that to people on KZbin like yourself. Thanks

PETER, I definitely want the toe clamps explained in more depth, please! They're very interesting and I want to thoroughly understand them! THANK YOU!!! :)

I learned to never question a master , that also applies to watching Peter .

At a previous job I had some big aluminum plates, 226x75" and 0.75 ±0.005. One of the most challenging features I've ever done. We had to use an ultrasonic thickness gage to measure the middle to.

as a headphone user: thanks for denoise =) as a machinist that knows titanium: i feel your pain, the material is always right... good job as always, thanks for sharing knowledge

We were having 14 ft diameter propellers made for a high-altitude airship. The vendor thought solid aluminum blades would be the fastest way to get prototype blades. They fought with stress in the material, stress induced by machining, stress induced by aging and stress due to working 14 hour days trying to get a net shape across a 7ft piece of surfaced aluminum. The process was; make a surfacing pass, remove the blade from the fixture, shot peen it, vibration and stress cycle it, fail CMM in-process inspection, modify something, repeat! Ultimately, we had to use an commercial carbon fiber airship propeller.

Thanks for sharing your procedure and thought processes. You mentioned the cutter putting stress into the part, how about residual stress from rolling and cooling of the plate? My impression has been distortion like that comes mostly from residual stress in the material. We fought some copper plates, ~24x24" finished to 3/8", and those suckers were all over the place. Eventually got it good enough, flat when sucked down on a vacuum fixture, but not to what we'd have hoped for. Such as life

More knowledge in this guys head than 1/2 the machining industry. Titan puts out glamor knowledge. This guy shows you his process and how he makes it work. He put a vice in a freakin Mazak for crying out loud and showed us the machining process!

Aa young apprentice I had to use a big plough grinder to get something similar flat. but titanium is a different beast.

Great video 👍 When you explained the cutting effects on the material I thought a old fashioned metal plainer may have been a way to size the thickness.

you have a great knowledge and its always a joy listening to you, however, since its a thin "flat" piece of stock don't you think its better be fixtured on a different machine with horizontal table with vacuum fixturing for simpler facing op?

I love to watch you making chips, while I'm making chips

I did once talk to a machine shop that still ran a couple of very large old planers. They told me they were indispensible for getting thin plates flat. I asked why they did not mill these plates - the guy said milling creates a local heat zone, much different from planing.

What u said somewhere between 4min and 5min got my like & sub.

you are your own boss,, you don't have anyone telling you how to do it.. that's freedom

I see lots of comments about the machining. But I was completely distracted by the Cheetos in the back ground in the start of the video...... love your videos. keep it up.

Thanks for another great video Peter. I’m not a machinist but I enjoy watching machinist videos; I follow quite a few of your types on KZbin. I really enjoy the problem solving and creative fixturing that goes into some jobs. Your explanations as to why you sometimes start with large stock makes perfect sense to me. Do you ever use the chips from your jobs for your forging hobby? Or are those materials too exotic most of the time to be of use to you?

I think the key to understanding the whole deal with double sided and plenty point inserts is that insert price is mostly dependant on the volume of the carbide.

Peter, can you possibly give us an idea of how you bid a project like this? Were you aware of the limitations the customer provided material was going to impose and the extra time? Just curious how you typically deal with such things. Thank you!

Thanks for the video Peter it couldn't have come anytime better.I just got a job exactly like the one you showed very similar in length and thickness but only 4" wide.I have never machined 3D printed Titanium plate before so was a little nervous not knowing how it's going to behave.Will be machining on a vertical machining centre.I noticed you mentioned about 10"/min feed but didn't notice the cutting speed.It would be very helpful if you could give me those values rather than experimenting.Thanks again.

thanks for sharing.

Wouldn’t taking a couple of those inserts out help by free cutting? Thanks for a great video!

Dear Peter, I have done simillar tasks like yours with vacuum workholding. Had quite satisfying results with that. This was on a vertical mill with steel and aluminium. Whats your opinion on this with a horizontal and titanium?

I burn up inserts on my slab flattening bits for my router just taking to big of a bite in Mesquite wood. Can you imagine what i'd do with these machines? Yeah... i better just stay retired! Thnx Peter.

What would happen if you just clamped the piece on the tombstone as it lay, so it would lay bowed/cupped (depending on which way it was oriented), and you would not tap the piece down flat (maybe shim the back with shim stock for support) for initial roughing passes? I would think the first passes would skim the deformation out and not "hide" it like what is happening when the plate is tapped down onto the tombstone and then clamped. I am thinking about how in woodworking you have to use a jointer to remove all deformation in the piece of wood before thickness planing the wood. If you run a distorted piece of wood through a planer, you will just transfer the deformation from one side to the other and back and forth, this seems to be akin to what you are doing when you tap the piece down and it is not "jointing" the plate.

I wonder if just the heat from the dull inserts caused it to warp more.? I wonder if milling to size and mechanically straightening would have taken less time and insert cost?

Not a machinist but I can honestly find myself fascinated by what the cost of that plate as suppled by the customer could be (knowing your cost for that material would vary wildly). What the cost and positive/negative issue with sending the material out for stress relief would be. But my gut feeling is Peter knows full well that even with stress relief he is not going to simply be able to flatten a face and hog everything off the other face of stress relieved material and come out with a part in tolerance because of the issue he explains. The tooling/cutting re-introduces stresses into the material as its cutting and that stress has to be accommodated. Non-machinist I hear people say Titanium is "gummy" so while you'd run dead sharp tooling at all times the simple fact is after the first chip cut your tool is dulling which means every subsequent cut is introducing more heat and displacing some super small amount of material to a forging/forming/rolling effect. I'd imagine those plates at .800 must be worth 3, 4, 5, thousand dollars a piece? What would stress relief cost? What is the cost of 5 hours of machining to get them flat? My guess is an individual who has owned the shop he is now leasing a bit of to operate in (asked by the new owner), the customer who supplied the material, knows that the costs alternative to this course of action would be higher. Coming from the wood world, EVERYTHING in this video made total sense.

Would Blanchard grinding work? I know you would have to pay another shop but would it be cheaper in the long run? Just wondering.

awesome video as always. just a question but would a vacume fixture plate not be ideal for machining a plate like this?

I really really want to see the design of the clamps, since I've been doing more and more 5-axis cutting, and dealing with some huge hunks of material for the machines in our shop.

That right there is one of the hardest things to get done right.

You could sell those Titanium shavings as"Deluxe non-corroding lightweight steel wool" for a high price. "Lasts longer than cheap steel wool!" Also in composite work, "stronger than fiberglass"

Did you try out using a high feed mill to rough it down then finish it on the last cut with the facemill? Usually the cutting pressure they create is axial on the tool so it tends to push the part into the fixture and minimize it pulling into the cutter.

interesting, if try to fly turning tool, the result will be the same?

Hi Peter I'm indicating a insert drill on a 2 axis lathe and I was able to get the centerline but was told that I need to dial the y axis. Would you know how to go about that?

What about putting a bar on the claamp side instead of 4 point lodes. The bottom has a bar and is more evenly distibuted point load.

For inserts with more than 4 edges or so i like it when they mold in numbers. makes it easier for my monkey brain to keep track. Even got some one sided turning inserts that have a dot on one of the 2 corners. really handy.

Your comment about the statistical stuff, I think you're referring to "sensitivity". When we do a math model for a system we do an uncertainty analysis where we basically vary each input parameter and we get a contribution of each input to the output. So you can look at it from statistics or from the math model, but it all boils down to a percent contribution to the output or to the error. I could go down the rabbit hole for data analysis but essentially when we're investigating a process we find the inputs which cause variation and set those as low as we can. Then we move the inputs to match the target we want. That way we have a process which has the least variation and the highest accuracy.

How do you figure out how much you can cut on your machine with recommended feeds? I’m curious if their is a formula for HP belt or gear driven?

Would a job like this Titanium plate be a candidate for a vacuum plate hold-down system along with your newly made (beautiful) hold-down clamps. Just wondering 🤔

Talking about excess material, I ( and others) had to machine umpteen Nuclear transport flasks for British nuclear fuels. The forgings came in weighing approximately 72 Tons and went out weighting 38 Tons.

Thanks!

Appreciate what you said in the start of the video about views and such. Using the 10 turns per insert must help for the cost of production when this is only starting the stock. Now if I was doing this I would want to just subtract on my H offset and not g54 (or what you're using) because zero is zero and my height is the offset I am changing. Why change the way you did? Great video as always

Perhaps a bit of hammer forging might save material. This is addresses the "General Machining" problem rather than you specifics. With the plate, I wonder whether vacuum clamping would/could provide enough force to make one side flat and then flip it over.

When are those clamps going to be available for retail sales?

I had to do this on a vise it took a while but we ended up grinding them