When cutting plastics, you'll get less fuzz on the part with conventional. Also, you can get straighter side walls (less taper) with conventional. I don't use it often but it can be useful at times.
@florianbertram94513 жыл бұрын
this
@imadequate33763 жыл бұрын
HDPE and UHMW love a conventional cut.
@thrivesuffer47873 жыл бұрын
You dont want to climb mill with a vacuum chuck either lol
@jmmywyf4lyf3 жыл бұрын
I own a plastics fabrication shop, and also use strictly conventional cutting on my CNC.
@LittleQueue3 жыл бұрын
Can confirm.
@michaelslee43363 жыл бұрын
Was in a shop with a very experienced fellow machinist on a CNC mill and a was getting poor tool life from cutting some laser cut parts. I told him to conventional mill them and he was horrified at the thought but ended up getting 4 times the tool life. Sometimes it’s just better to get under the hard skin rather than crunching onto it.
@platinumsky845 Жыл бұрын
That's one of the exceptions to the rule, and a common mistake not realizing that digging underneath the hardened surface avoids wear more than smacking into it from the beginning. Same thing with plasma cut parts as well.
@michaelslee4336 Жыл бұрын
@@platinumsky845 I remembered another one where I climbed and regretted it. Some long finned alum heat sinks were saw cut and needed trimming to length, the first fin that the end mill touched just went ba-doing and bent over. Duh, I just should have seen that would happen. Idiot. Conventional after that worked fine.
@0rnery Жыл бұрын
My thought through the entire video. Always best to rough out scaled up stock with conventional milling, unless you're not concerned about teeth chipping.
@platinumsky845 Жыл бұрын
@@michaelslee4336 damn, I can imagine that sound 😬 not relates to climb/conventional milling but had something similar happen when a company I worked for was trying to kill copper components for an EV, it has a heat sink built in and we ran a few of those parts just fine, the customer asked for the heat sink to change a bit to better match air flow and when we milled the new parts the cutter grabbed the new fins, pulled the part from the vice, and threw it against the wall of the enclosure hard enough to make a small dent 🤯
@darkracer12528 ай бұрын
tell him he needs to get the backlash solved in his mill. (that's why his tool life is better with conventional milling)
@dzarren3 жыл бұрын
2:23 isn't strictly true, even in climb milling, the flutes of the cutter still cause cause upwards cutting forces on the part. Just because you are feeding in a different direction does not mean the cutter is going in the opposite direction. The cutter is still turning in a right-handed fashion, thus the flutes on a conventional end mill still will exert an upwards force. The thing about pushing work pieces downwards is only true when the cutter has a LEFT HAND SPIRAL, but still cuts right handed. That is, it still rotates and cuts in the conventional right handed direction, but the flutes of the end mill have a left hand helix to them. This is the only scenario resulting in downwards cutting forces on the work.
@br1ckify3 жыл бұрын
i was right about to comment just the same, thank u
@Pow3llMorgan3 жыл бұрын
They're called compression bits/mills and are fantastic for some applications in plastics and wood. Because of their downward cutting force, they can leave a cut with almost no burr at all.
@peterfitzpatrick70323 жыл бұрын
@@Pow3llMorgan actually compression bits have left hand spiral flutes on one end of the cutting edge & RH on the other end... & are for giving cleaner edges ... I have only ever heard of compression cutters for routing wood to prevent tearout , never heard of metal-cutting & the fact that the swarf is "compressed" into the centre seems like a bad situation for milling metals... 🤔
@Sak-zo1ui3 жыл бұрын
What about heat input? Does the input become higher with left hand spiral?
@thatdrillguy78893 жыл бұрын
There's upcut routers (right hand helix), downcut routers (left hand helix) and compression routers (LHH for top half of flute length and RHH for bottom half). Knowing the difference is especially helpful in routing or side milling laminated materials where your flute helix direction can separate the layers (in something like plywood or carbon fiber). Helix angle is axial rake and rake is related to cutting efficiency. A positive axial rake is right hand helical in a right hand cutting tool and is more efficient at cutting. A left hand helical tool is negative rake and is a less effective cutting action....just like an old school hand ground HSS lathe tool for steel would be ground or held negative. It protects the cutting edge, but is less effective. The LHH is used for a different reason in these downcut and compression routers.
@theupscriber653 жыл бұрын
Excellent video. I'm an old toolmaker and we used conventional almost always on our manual mills because we didn't have zero lash lead screws so the part would try to jump forward during climb milling. Nice to see the technical advances that allow the option to climb mill.
@gaiustacitus424210 ай бұрын
Conventional milling machines do not incorporate ball screws and preloaded ball nuts, so conventional milling is still necessary on such machines.
@boblawson1006Ай бұрын
@@gaiustacitus4242 They may not have had ballscrews, but they sometimes (as in some Kearney and Trecker mills) had backlash eliminators, enabling climb milling 60 + years ago. Climbing with a long series 3/4" end mill on an old (even then) Bridgeport Turret mill making aircraft parts 45 years ago, held in an R8 collet to minimize tool overhang, I'd pass 'conventional' one way, return 'climb' to get a better finish, without putting on any more cut... Sounds odd that the conventional pass left material on, but it did. Since those parts were aluminium alloy, of low shear strength, and there was only small amount of material left on for the climb pass, the tool didn't drag the table into the backlash. With material of greater shear strength, or deeper cuts on a climb pass, you could nip up the table locks to "brake" the table, reduce the likelihood of it being dragged towards the tool... On a Cincinnati autocycling horizontal (there may have been universal versions, too) mill you could have fixtures either end of the table and "pendulum mill" unloading and loading the right hand fixture while the part in the left hand fixture was being climb milled, the machine would rapid back to start upcutting/conventional milling the part in the right hand fixture... They had backlash eliminators, too... Climbing on old machines was a necessity for some operations, such as cutting through hollow sections with a slitting/slotting/chip saw, for instance. I had to split some tubes in the seventies, to place on aircraft undercarriage hydraulic struts...To prevent inadvertent raising of undercarriages during servicing... Cutting through a thin tube with a slitting saw, cutting conventionally, upcutting, leads to the thin edge of the material that a blade tooth encounters either getting caught in the gullet, or blunting the teeth prematurely. Climbing avoids that occurrence... And we did that with no ballscrews, no backlash eliminator. So, no, climb milling was done, regularly, in the fifties, sixties... without ballscrews, where appropriate, and with appropriate precautions in place
@gaiustacitus4242Ай бұрын
@@boblawson1006 I've also performed climb milling on old machine tools that used acme screw threads in order to achieve a better surface finish. However, it is a bad practice to take roughing cuts while climb milling on such machine tools. There are videos on KZbin of the risks involved with climb milling on machine tools which were not designed for it. You can put climb milling on an old machine tool in the category of Stupid Human Tricks that no one should copy.
@boblawson1006Ай бұрын
@@gaiustacitus4242 Somehow my last reply went adrift. Why do you think we were taught (in the sixties / seventies ) how to climb mill safely in circumstances where conventional upcut wasn't considered safe? Would you upcut, with a slitting saw, through a thin section with the risk of it lifting?
@jacorral57883 жыл бұрын
Conventional cutting works better in foam in my experience. Climb milling tends to push the foam into the part since the foam is pretty compliant, leaving a subpar finish. Conventional leaves a nicer finish in the foams I've cut, since it's peeling the foam away rather than compressing it in.
@seanallanhaythornthwaite37473 жыл бұрын
Conventional cutting was used on a manual Millers climb milling on these old miller's will pull your part in or through
@jdrevenge3 жыл бұрын
Bingo.
@Peteeboy20114 ай бұрын
Yup crash
@theotherJarvisx5110 ай бұрын
good to see someone who has some understanding of the two. mill scale on mild steel is always conventional until part is clean.
@thegregdavieschannel3 жыл бұрын
Climb is definitely a more efficient way to remove stock, however if you can do conventional milling on a return stroke it could be faster overall than a non cutting return pass with positioning move as shown at the start of this video.
@DairyAir3 жыл бұрын
I’ll never forget the demo for why you don’t conventional and climb cut on a manual machine when I went to TC. An old WWII era horizontal mill with an 1 1/4” hog climb cutting 1” deep and that thing exploded!
@gaiustacitus424210 ай бұрын
I had a large cutter explode while climb cutting. It was like a hand grenade going off and threw razor sharp metal shards all over the place. I felt one shard touch my hair as it passed by (and my hair was short). I looked behind me and saw the shard embedded in an industrial steel window frame. The grim reaper missed me by a fraction of an inch.
@DairyAir10 ай бұрын
@@gaiustacitus4242 Yep… you learn to duck… or else… shops are much safer, now days. It took a lot more HP to cut with those, at low rpm… lotsa potential energy, when something breaks…
@turbolevo87033 жыл бұрын
Conventional milling is useful for loading out backlash in knackered machines and for balancing forces in parts that move/flex whilst machining.
@ferrumignis3 жыл бұрын
Came to write the same thing, on older worn machines you take a big risk of a broken cutting tool and ruined workpiece with climb milling.
@karlomoharic39923 жыл бұрын
It depends on application and machine used. Good machinist know the difference and know how to use that to their advantage
@X197ToPlay3 жыл бұрын
thats the only true thing here!
@markjones41863 жыл бұрын
I work in aerospace and we are using 30,00rpm spindles with 150hp milling large structural components. We have went back to using conventional when finishing. Using a 1/2" dia 4 flute we are taking 1" doc or up to a 10:1 wall thickness to height ratio. Using conventional cutting we are able to feed at over 400ipm and not have these thin flanges push off enough to be a problem.
@Lokomart3 жыл бұрын
That sounds like a bad ass piece of equipment bro!
@gooblio3 жыл бұрын
What machine has 150hp and a 30,000rpm spindle?
@markjones41863 жыл бұрын
@@gooblio There are quite a few actually. As far as I know they are all designed for aluminum aerospace parts. The two that I am most familiar with is from Bavius and Starrag. These high horsepower / high speed spindle machines normally have spindles manufactured from either Kessler or Fischer which have actually created a 240hp spindle, but I've never programmed one of those. kzbin.info/www/bejne/nHywo6iPeLakjrc
@rossilake2189 ай бұрын
I would love to see that spindle rip the Alum off the part.
@cecilracing53Ай бұрын
Yeah conventional milling with small loads creates better finishing. I do the same with aerospace parts k work on.
@stensonmccray3234 Жыл бұрын
The times I use conventional over climb is when cutting something that has a hard scale on it. When conventional milling, the cutter cuts underneath the scale first. Climb milling makes contact with the scale first every rotation resulting in chipped inserts.
@martynbrooke94643 жыл бұрын
I started my apprenticeship in 1973. Small company with more backlash than you would believe. One M/C had over 3/8” (10 mm) of backlash. If you climb milled you always snapped the cutter unless you were very quick to disengage the feed. Visiting a small company last year not much had changed. If not a CNC m/c ask somebody as not everybody has the best tech to do a job.
@ferrumignis3 жыл бұрын
I'm a bit younger than you but had a similar experience. Went to an engineering college with some pretty abused and worn machines. Climb milling was strongly discouraged because of the risk of breaking tools, ruining workpieces and worst of all having workpieces flung out of the big horizontal mills.
@FLMKane7 ай бұрын
I worked in a racecar shop that had on old taiwanese lathe. Damn thing had an inch and a half of backlash
@iamthepeterman543 жыл бұрын
Great video! I have two other thoughts that might help someone else out too. 1 - the conventional approach to case hardened material also works amazing for flame cut profiles. Use a heavy stepover and get under the slag in virgin material and pop off the slag. Then climb cut once the slag is gone. Great for weldments. 2 - I once made some parts with a 10” diameter bore by 4 inches deep that needed less than .001 taper walls and a critical diameter. Taper was a serious concern and the material was a hardened 15-5 stainless. I ended up using a 1 in dia Fraisa 11 flute finisher and climb cut to size using air only (CAT40 spindle). The walls were tapered by .0015 or so. Then I ran a conventional cut spring pass. What that will do is suck the button of the endmill into the cut a straighten the wall. Then did a final ghost pass climb to fix any smear and ended up with walls with .0002 taper. Amazing. Real life saver to learn that trick from Fraisa apps.
@skaelring-xj3gq Жыл бұрын
I use both depending on the situation. If I'm operating a manual mill with a traditional lead screw, I will rough with conventional and finish with climb. On a CNC, I only use climb milling unless I'm machining composites or laminates as climb milling in these materials tends to produce excessive burrs and delamination.
@rossilake2189 ай бұрын
I'm hobby guy on a BP in the Garage. I like to climb on alum, plastics are a different story. The good thing is i can "TEST" cut and look at surface condition. 👍
@MawoDuffer3 жыл бұрын
Working on a Bridgeport mill, I was taught to rough conventional, finish with the climb. But you have to understand depth of cut and speed affects it a lot. I rough cut about .050 at a time and finish cut .005. This is with a .750 end mill at 700 rpm. On my finish cut, I go back and forth a few times which might be called a spring pass. If I tried to climb mill .050 on a Bridgeport I think the cutter would keep pulling on the backlash of the table. Maybe it would work fine with a new Bridgeport, but with these older machines, you need to use different techniques to get them to hold thousandths. With a rigid new cnc mill, you simply take cuts differently than on an old manual mill.
@quickdrawmcgraw43943 жыл бұрын
So you side step .050 fir roughing? Is that your max side step when usung the full length of the endmill? Hopefully i worded this question correctly.
@jackwillson80999 ай бұрын
Your Exactly right manual machine bridgeport mill & lathes ,machinist for 35 years
@rossilake2189 ай бұрын
When i first started on the BP, cutting Alum on a climb with a roughing mill. I learned fast how back-lash works. Damn! That was a sharp mill.
@jackwillson80999 ай бұрын
@@rossilake218 nothing like have 0.050 back lash in a Bridgeport lol
@NielMalan3 жыл бұрын
I'm not even nearly a machinist, but as a scientist this video warms my heart. It doesn't just propagate dogma, but it gives a reasoned account of why climb milling is superior. Of course the comments show that not everyone agrees, but because the video is so clear, the comments too are reasoned responses.
@jamesnizzy97743 жыл бұрын
Always wanted to know this, I've been taught about conventional and climb milling but conventionally milling has always been avoided. Nice to understand the applications of it!
@ryansoltwedel10413 жыл бұрын
I was at school for a manual mill class and started working on my first project. Not knowing the difference between the two, I climb milled a part and noticed the tool move, along with the digital readout. I had absolutely no clue what was happening until I did some research and figured out that the machine wasn’t rigid enough for it. I genuinely thought I broke the machine because of a .050 pass
@luukdeboer19743 жыл бұрын
A milling tool shattered every now and then in my metalworking classroom, and I destroyed one too
@NotDerekSmart3 жыл бұрын
Sometimes cutting conventionally with larger diameter tools with straight flutes or teeth like woodruff mills helps guide and stabilize the cutter.
@gaiustacitus424210 ай бұрын
If you're cutting metal on a machine tool that uses acme screw threads, then you must use conventional milling to avoid the machine being pulled off location. This problem is solved in CNC machine tools by designs which incorporate ball screws and preloaded ball nuts with opposing tension. Conventional milling remains the best technique for rough machining materials with hard or scaly/abrasive outer surfaces, such as cast iron, hot-rolled steel, and sand castings. Incorporating conventional milling into CNC operations on even easy to machine materials, such as aluminum, can improve efficiency without sacrificing quality of the final surface finish. Many of the modern CNC programming applications automatically generate tool paths which include conventional milling even when these are not desirable. Ironically, the parts being machined in this video are using a combination of conventional and climb milling while the narrator is preaching against the use of conventional milling.
@brianmiller37043 жыл бұрын
Conventional milling is also used when milling brittle materials. Brittle materials typically can't withstand the high cutting forces exterted as the cutter leaves the material, causing fracturing and chipping of the base material. I learnt this milling PVC.
@owievisie3 жыл бұрын
You would like to do conventional on plastics as well, because the plastic moves a lot, and with conventional you pull the plastic into you cutter, instead of pushing it away
@brandons91383 жыл бұрын
Nope. Conventional cutting adds too much heat to the equation. Plastic's relative soft nature also make conventional cutting a bad idea is because it increases tool/cutter pressure actually pushing the part away from the cutter.
@giuliobuccini2083 жыл бұрын
I embraced climb milling from the beginning just because... I had the feeling/sensation that the tool was working better. I always had some shivers by thinking at the tooth rubbing the surface in a convention milling... brrrr! Now I know from comments here that conventional milling can be useful in case of thin walls and soft material like foam. That's a good advice.
@estamnar60923 жыл бұрын
"I hope this clears up any confusion..." *me, who knows nothing about any of this*: Nope! Still incredibly satisfying to watch though!
@estamnar6092 Жыл бұрын
Apparently I watched this a year ago. Came down here to make the exact same comment lol... help
@SirFlibbertyJibbit3 жыл бұрын
Found out the hard way plenty of times that tall thin features on parts need to be done with a conventional cut. Most of the time I'd do them in a high number of steps and towards the last couple of steps the cutter would just grab and pull the part into the cutter. Using a conventional cut it almost seems to push the part away slightly due to that shallow entry cut.
@bengjerdingen81022 жыл бұрын
I use conventional cutting all day long in our plastic shop. Along with standard carbide end mills we use router bits in some cases and most plastics need extremely sharp tooling and need to throw the chip immediately, unless you want a goo ball. Acrylic and Acetals you can climb cut without a problem along with some other stiffer plastics. Conventional milling when machining plastic is the norm.
@joels76053 жыл бұрын
Spectacular video. I'm just a home gamer, and I've never understood why conventional milling produces such poor surface finish on some materials. This is the best description I've ever heard. Thank you.
@rossilake2189 ай бұрын
Get out there an buy a $1500 Bridgeport, put it in the corner of moms garage and learn. Lots of great YT vids. Get out of the basement!
@spaceage693 жыл бұрын
extra long cutters is a good thing to use conventional cutting climb milling pulls the cutter into the part
@georgespangler15173 жыл бұрын
I have a 50s Sheldon horizontal mill and have always read not to climb mill,, but my mill motor rotation is conventional and I agree with you just makes sense it's trying to lift peace and pile up chips in it's path
@OctaneWorkholding3 жыл бұрын
Great explanation! It is good to understand the benefits of both, sometimes the smallest changes make all the difference.
@grappler1853 жыл бұрын
Best video you guys have put out in a long, long, long time.
@joelmacdonald69943 жыл бұрын
I use conventional milling to get under a flame cut, heat affected area for a pass or two, and then switch to climb milling. Works well.
@cooper52203 жыл бұрын
Both have their place to a good machinist
@erieschl3 жыл бұрын
Not sure why this showed up in my algorithm but cool!
@markmall71423 жыл бұрын
Everything said here is correct.But 5 extras points. 1)Climb milling extends cutter life 2 fold ,even more denpending on circumstances. 2)Ive climbed 57/58 Rc without issues so i would still recommend climb. 3)coventional does induce less pressure on work pieces so as you said thin extrusions,unsupported nylons and plastics can benefit from this stance. 4) I would still conventional mill with slitting saws. 5) Like you said it comes from manual machinists struggling with grabbing but one can overcome it . Thanks for the channel and this insights shared.
@angrydragonslayer3 жыл бұрын
basically what i remember except for the case hardening, that's a really good tip and i can see it saving several endmills, even in a single job.
@wendull8118 ай бұрын
One of our mills at work is a 1970's bridgport knee mill that has been abused for decades. When milling you have to use conventional milling otherwise the cutter will bite into the part and bounce the table resulting in uncontrolled sizes and surface finishes. Managment will not pay to fix it and they won't replace it because it still works.
@davidfarmer3 жыл бұрын
Conventional milling can be useful if you material is flexing, for example, thin wall parts, however in order to effectively conventional mill your tool must be very very sharp, and its ideal to have a higher ipt, to make initializing the cut easier.
@slayersentience6663 жыл бұрын
I'm from Quebec in Canada studying as a mechanical engineering tech in college. This course includes conventional and CNC machining, and we never use conventional milling always climb milling only. We were told conventional cutting can have some advantages on a conventional because of screw backlash but that's it's pretty much pointless in CNC because they usually always have anti backlash systems and much higher rigidity.
@lx2552Ай бұрын
Helps avoid deflection as well with long tools, it’s very nice in rare situations
@ferencungvari30895 ай бұрын
I typically use conventional milling to get around the hardened crust of a stock material, cut by plasma or flame and has a tendency to harden, mainly an issue with alloys, but structural steels can behave like that if it is a thick plate and the plate has no time to heat up, so essentially you get a hardened layer at the cut. these are typically steal bead blasted after flame cut so it is not the slack what is causing the issue. with conventional cutting you essentially make the hard crust break instead of cutting it with every entry of the cutting edge of the tool.
@codymoreland44963 жыл бұрын
I work in wood milling on flat stock sheet mills and 5 axis milling and the direction of cut is very important for finishes. I dont know much about metal so It does sound as if all you would likely want is climb cutting. I use about 80 percent climb cutting and 20 percent conventional. Mostly for finish reasons.
@johnhewitt69653 жыл бұрын
Best video ever, hands down, thank you my friends. Most information per syllable since E=MC^2
@aaronmay89513 жыл бұрын
“ I like your funny words magic man” This quote from JFK perfectly summarizes what I’m thinking while watching this video, not understanding anything about milling. But I like it
@can_with_beans11 ай бұрын
As someone who's ever only seen CNC machines do work, but never actually learned about the process, this was very informative. Great work explaining everything in a super digestible way 👍
@bozejcity3 жыл бұрын
Very nice video. A shop owner where i work, used to program cnc before he hired me. He is an old school guy (retired now) and he used to do conventional milling in 316 ss all the time. He was really suprised when i started cutting with climb cut, telling me its a wrong way to approach 316SS. But, when i showed him a surface finish he said its good for finish cut only. Combining both, climb and conventional, for roughing seemed to be the best. 3:03 This video made me thinking maybe the old guy was right. 316SS is a perfect example of case hardening
@pcsmachineworks3 жыл бұрын
316 stainless is extremely prone to work hardening, therefore climb milling would be generally preferred. When milling, there is a minute amount of displacement that happens before the cutter actually bites into the material. This compression of the material is working it into a hardened state, conventional milling exaggerates this effect substantially over climb milling. Once you break the outer crust of the raw material it is substantially softer, if you have ever worked with rolled plate you would know exactly what I mean. Climb mill all of the work hardenable grades unless there is a specific feature that requires the stability of conventional milling.
@pcsmachineworks3 жыл бұрын
I should also add that tooling choice has a big impact on the method chosen, if your using flexible flimsy HSS tools then they might benefit from the stability of conventional milling. HSS also generally has sharper cutting edges than carbide allowing it to dig in and not hammer on the material as much. This could also apply to extended reaches and long tools in deep pockets where there may be some flex due to length.
@murkywaters62943 жыл бұрын
Stabilizing the cutter with conventional milling can be very helpful especially with less than 1/2” diameter tools and/or greater than 2xd doc, even in average cutting metals
@BrassBashers3 жыл бұрын
I was always told conventional milling was always bad on a CNC machine, unless you are finishing softer materials like brass or aluminum. Some say conventional makes better surface finishes on last passes on these softer metals, I have yet to try it for myself.
@Stihl4life3 жыл бұрын
Yup conventional is great if you are cutting hard scale or harder material it gets under the "bark"
@kellytruong54043 жыл бұрын
Do yall have classes for someone wanting to learn about cnc?
@NORTHBROOK19783 жыл бұрын
I use it on plastic. It makes a better finish on certain parts.
@Pondimus_Maximus3 жыл бұрын
I do the same thing, especially with Delrin. Always comes out smooth and shiny. 😎
@pmsilvei3 жыл бұрын
Yes. And I also use conventional when cutting black foam for bottom of shadow boxes. Climbing will not do a clean job.
@josephcampise99503 жыл бұрын
Honestly never thought about that. Going to have to try it the next time I cut some
@NORTHBROOK19783 жыл бұрын
@@josephcampise9950 I work for a plastic molding/extrusion company. So I'm dealing with pre formed parts. What works well also are single fluted end mills with a downward spiral..
@alishihade47513 жыл бұрын
Thanks man its what I was surching for
@Vuntermonkey3 жыл бұрын
I don't run a CNC machine, but this was fascinating. Thanks.
@DanielH3 жыл бұрын
Thank for this information 🙂
@BenAtTheTube3 жыл бұрын
I am cutting a shallow slot (in stainless steel), then slightly enlarging it to desired width on the return path. I use conventional milling, because climb milling pushes the material against the edge making a bigger burr. The original slot has both a conventional side on the left and a climb side on the right, so the return path cuts on the original right side to remove (minimize) the larger of the original burrs. (Doing it with climb milling on both sides is not really much different...)
@henryhbk3 жыл бұрын
So useful. Maybe one of the most useful videos you guys have put out in a while. I mean I love the CNC apron watching a tool the size of my forearm blowing into hard steel as much as the next guy, but I way prefer these educational videos that bust myths
@gooblio3 жыл бұрын
I've only done conventional milling on some 4140 when a tool broke and the material got work hardened just to remove the work hardened material. Once in over 30 years of CNC milling that I remember.
@AmericansWillRise3 жыл бұрын
I climb to finish, even on manual machines, provided that the table clamp will put reasonable pressure. I may have to rough out, by conventional means, but I'm climbing on finish pass, for sure.
@wattscreates19773 жыл бұрын
I’m a visual person, and although I know the difference and benefits of the two types of milling, some people may have a hard time without visual representation. But this is a great topic, and I appreciate you guys! I love what titans stands for!
@thomasmedlin2881 Жыл бұрын
You never cease to amaze me with your depth of knowledge.
@LPMutagen11 ай бұрын
My machine has worn ballscrews which aren't worth replacing for the situation I'm in. Climb milling circles are out of round by upwards of 10 thou, conventional milling circles are only out by about 1-2 thou. It's because the cutting loads are always going against the backlash rather than trying to get ahead of it.
@AllForTheGame3 жыл бұрын
You should use climb milling for walls, thats a must. And use conventional for pocketing/ floor machining. This is for best finishes.
@bravinneff79327 ай бұрын
Climb cutting on a manual mill with acme thread screws would (1) pull the workpiece (and your hands) during the cut, and (2) when the cut would first enter, it would take up the slack in the screw and your chipload would instantaneously go much higher than you planned for, often leading to a broken cutter. None of this happens in conventional cutting. Also, tool deflection during climb cutting is away from the workpiece, thereby tending toward making your parts oversize (i.e, you don't blow the dimension). Tool deflection during conventional cutting sucks toward the workpiece, thereby tending toward undersizing your part.
@constantinosschinas4503 Жыл бұрын
Also, when your Z axis or tool is not so rigid, you can see the difference in flexing. The one tends to pull the mill in the work, sideways, and the other pushes it out.
@Donkusdelux3 жыл бұрын
A big one if you use climb with conventional milling if you almost can drop the roughing cycle time in half for simple soft parts.
@barrysetzer3 жыл бұрын
Very true, as you can see in this video! Bi-directional roughing can save a ton of time in certain applications.
@crimsonnexus83323 жыл бұрын
Bounced back and forth on the pros and cons. This made it hard to follow. I would suggest going over all the pros of climb or conventional the the cons of each at once. Then give examples as you did at the end. To be honest I only have the take away that one of them throws the cut off material in way of the movement and the other throws it in the other direction. Combined with the vid switching between climb and conventional so quickly as you talking about one or the other, I am having trouble what is what. Maybe match the milling style with what is shown with the video. I understand if what I am saying is not important as I know vary little about machining. Alas I watched to learn more about it. Please take this as a kind criticism and not a blatant complaint.
@ArnoldsDesign3 жыл бұрын
I only climb mill on a manual vertical mill if my endmill is at least half the cutter diameter to keep it from getting sucked into the backlash. Even then it can be nerve wracking at the end of the pass. I try to climb mill when possible, and almost always on finish passes. When I was working in the 90's at a local factory, our tool shop cnc programmer, who wasn't a machinist, was having a hard time figuring out why a 1" roughing EM kept pulling into a cut during a full diameter conventional pass in the VMC's. We were machining tool steel spacer plates. Because of this, the finish pass wouldn't clean up, and the finish profile was distorted, full of burrs, and a mess. I tried to explain climb milling to him, but he wasn't getting it. Then I said to him to the effect, "You have ballscrews, use them." To me it was common sense. He thought I was crazy. I tried to explain it to him further, but he just laughed about it, and kept using conventional milling. After I left there, I wondered sometimes if he ever figured it out.
@TheCommo81 Жыл бұрын
Nice video! I use climb milling on everything from steel to acrylic. Always get a nice finish and my end mills last a long time! It's all about speeds and feeds. If you get those right, you'll always end up with a nice finish. conventional on plastic generates a lot of heat. Climb milling plastics evacuates the chips and heat like you said.
@marcsolorzan94873 жыл бұрын
I use both when I'm roughing in a hurry.
@cyleleghorn24611 ай бұрын
I'm gonna say, for a lot of people (not companies) the reason is because CNC costs about 100x more than milling. There are a lot of things cnc can do more easily, but you pay a premium for that. You can learn to do the same on an old beat $500 bridgeport, and then you have more knowledge and skills and have saved a lot of money. Now if customer is paying $5,000 for a part and you already have every machine under the sun, and it's up to you to pick which one to use, this video is for you!
@TITANSofCNC11 ай бұрын
He is talking about conventional vs climb cut
@bumpstart214 ай бұрын
Conventional was almost mandatory with manual machines and steel as a precaution. The small amount of backlash was sometimes just enough to allow the cutter take too large bite and turn your operation into a rack and pinion! It probably just carried over from there.
@Tomasso20093 жыл бұрын
In CFRps conventional is used in order to prevent the push of material inside the part and, thus, causing damage and delamination.
@adrianstachowski94223 жыл бұрын
Also for very very hard matterials (58hrc or more) or surface hardened steel (f.e. after laser cut) it's sometimes better to cut conventional to prevent tool crack, but it depends on tool type (hss or carbite) and quality. I work in Poland where many companies uses cheap tools or used, sharpened tools and then the conventional milling for hard steels have a point :D It all depends on situation.
@AChicken-sh1gc Жыл бұрын
the reason for using conventional is because most manual mills have normal drives and not the high precision no play things so there is a good bit of play and thet is compensated for when using conventional but with cnc mills that almost always have those special drives for the axis
@imadequate33763 жыл бұрын
Plastics like UHMW and HDPE I climb cut. Its all about the materials, sometimes it's better to climb cut to reduce chip weld.
@cncmoldsnstuff4423Ай бұрын
I use mixed milling all the time for material removal rate. Also on some machines, I get a better finish by taking a spring pass in conventional milling. Now, before you go criticizing, I personally own all of my machines and they are not particularly expensive machines. Honestly, I find it hard to believe you never absolutely never under pain of death ever use conventional milling.
@mcsheesh20522 жыл бұрын
If you're machining cast iron/steel parts conventional milling can save you a lot of tool life. All that slag junk on top of the casting can ruin a cutter pretty quickly. Conventional milling typically breaks of the rest of the surface contaminations when exiting the cut, keeping your end mills nice and sharp
@larryblount33583 жыл бұрын
Great audio. The video seems to show maximum removal rate be going with both climb and conventional cutting (most of the time). An explanation of the versus climb only or conventional only to tool wear, cutting time, etc would be very useful. One of the better videos from your team. More about machining education then other subjects.
@dislikebutton19353 жыл бұрын
Great simple explanation, thankyou 👏
@azuro11252 жыл бұрын
Running heatsinks with thin walls and intersecting cuts works great with conventional milling. With climb milling it becomes an exercise in misery.
@apt9623 жыл бұрын
Great explanation of the two! Cheers.
@jelle1919 ай бұрын
I use conventional milling sometimes when facing a surface that is smaller than my index mill to have a less agressive entry. Not sure if I got to this from my own common sense or that it is actually a thing..
@murrayedington3 жыл бұрын
Interesting point about machining surface hardened materials (better done in conventional) - hadn't twigged that. There's always something to learn - many thanks!!
@nofunallowed33823 жыл бұрын
You mentioned case hardening, and conventional cutting makes a lot of sense now. But what about through hardened stuff? Would conventional cutting be viable with high feed rate end mills? So much stuff to consider now...
@barrysetzer3 жыл бұрын
Better to climb in thru-hardened metals
@NickCunitz6 ай бұрын
I use conventional cutting when I have a big chunk I don't want to mill away. I find climbing pulls that chunk or slug into your part but going the other way just kicks off to the side.
@Steve-sd7wk3 жыл бұрын
I was always told to never climb cut on a manual Mill, which is all I ever use. Climb cutting on an old J-head, the self feeding action of the climb can cause the table to lurch forward and create bad finish, bad dimensions and you can break a tool.
@Normjohanson3 жыл бұрын
I'm sharing this channel with my apprentice 👍
@jonathancarter6696 Жыл бұрын
Conventional cutting when machining wood is used to eliminate chipping as you always need material to back up the cut; especially when machining around sharp corners, but I agree that you should always climb cut whenever possible.
@RedGloveFan3 жыл бұрын
Great video and explanation! Thanks
@jenpsakiscousin4589 Жыл бұрын
Lots of applications for conventional cutting, mostly when finishing. For ex, if you need to remove .0015 or less particularly in ferrous steel it helps the tool suck to the workpiece. Climb cutting will sometimes just glance off and not cut esepecially with long tools. Also some materials get better finishes cutting that way. Back in the day, lol, climb cutting was risky. Today climb cutting is 95% of the time.
@bobbyshaftoe453 жыл бұрын
Awesome vid!!! And all in a few minutes! Easily the best practical description I've heard yet, comparing and contrasting conventional & climb.
@The50Baker3 жыл бұрын
I actually just learned something.. I always climb mill anyway.. Just how I was taught. But never explained why. Thanks.
@phuckyocouch90983 жыл бұрын
You shouldn't be trusted to make programs for machines if you can't understand what the applications for climb vs conventional are and the benefits of either.
@jonathanhahka99393 жыл бұрын
When you cut some soft materials, like delrin, and when you use an opposite flute cutter.
@MillTurn4Life2 жыл бұрын
When you were talking about hard surfaces and conventional milling the skin off would this be advantageous with flame cut billets too????
@BrilliantDesignOnline3 жыл бұрын
WOW..the most straight forward discussion I have ever heard about cutting modes. Thank you.
@gaiustacitus424210 ай бұрын
Ironically, the example machining in the video demonstrates machining techniques which are contrary to the recommendations.
@PaulSteMarie2 жыл бұрын
Backlash compensation in the control isn't going to do anything for the problems with climb cutting on machines that have a lot of backlash. On those machines, when the cutter engages, the slack is closest to the screw. Climb cutting results in the cutter pulling into the work, immediately jumping by the amount of slack. That can break a cutter if there's more than a few thous of slop. Modern CNC machines with ball screws don't have that sort of slop in the mechanics.
@pummppkinn3 жыл бұрын
I was aware of everything you mentioned except for one point you made. Why would there be a difference in the lifting force from Conventional to Climb milling? I thought the only factor to lifting force would be the helix angle and helix direction of the cutter.
@vanguard69373 жыл бұрын
i think what was meant is more of pushing the part towards or away from the tool. With conventional, the endmill is trying to pull the workpiece in, thus lifting it out of the workholding, whereas climb is pushing the workpiece away, pushing it into the work holding, or at least not pulling it out.